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Всички цитати
Звено: ( ИОНХ ) Институт по обща и неорганична химия
Година: 2017 ÷ 2017
Тип записи: Всички записи
Брой цитирани публикации: 730 Брой цитиращи източници: 2405
1985
1. Uzunov I., Klissurski D., Kumbilieva K.. Preparation of Highly Dispersed ZnO by Thermal Decomposition of Basic Zinc Carbonate. Thermochimica Acta, 93, Elsevier, 1985, ISSN:0040-6031, 485-488. SJR:0.605, ISI IF:2.189
Цитира се в:
1. Debao Lin, Lingcong Fan, Ying Shi , Jianjun Xie, Fang Lei, Dudi Ren, Elaboration of translucent ZnO ceramics by spark plasma sintering under low temperature, Optical Materials, 71 Special Issue: SI (2017) 151-156, 2017 Линк
1986
2. Kostov, K.L., Marinova, Ts.. Ethylene adsorption on a clean iridium surface. Reaction Kinetics and Catalysis Letters, 32, 1, Kluwer Academic Publishers, 1986, DOI:10.1007/BF02063463, 141-146. ISI IF:1.264
Цитира се в:
2. Posthuma De Boer, J., Theoretical studies of epitaxial graphene formation on metal surfaces, Doctor of Philosophy of the Imperial College London, The Blackett Laboratory, Imperial College London, 2017., 2017 Линк
3. Angelov, S., Stoyanova, R., Dafinova, R., Kabasanov, K.. Luminescence and EPR studies on strontium carbonate obtained by thermal decomposition of strontium oxalate. Journal of Physics and Chemistry of Solids, 4, Elsevier, 1986, ISSN:00223697, DOI:10.1016/0022-3697(86)90032-6, 409-412. SJR:0.632, ISI IF:1.853
Цитира се в:
3. Arumugam, D.; Thangapandian, M.; Mathavan, J.L.J.; Jayaram, A.; Palanichamy, M.; Chandrasekaran, S.S.; Subramanian, U; Gupta, M.; Okram, G.S.; Jothirajan, M.A.; Amirtham, M. "Growth Mechanism of Pine-leaf-like Nanostructure from the Backbone of SrCO3 Nanorods using LaMer’s Surface Diffusion: Impact of Higher Surface Energy (γ = 38.9 eV/nm2) {111} Plane Stacking Along ⟨110⟩ (γ = 3.4 eV/nm2) by First-Principles Calculations" Cryst. Growth Des., 2017, 17 (12), pp 6394–6406, 2017 Линк
4. Jiang, D.; Zhao, H.; Yang, Y.; Zhu, Y.; Chen, X.; Sun, J.; Yu, K.; Fan, H.; Zhanga, X. "Investigation of luminescent mechanism: N-rich carbon dots as luminescence centers in fluorescent hydroxyapatite prepared using a typical hydrothermal process " J. Mater. Chem. B 2017, 5, 3749-3757, 2017 Линк
5. Raj, S.S.; Gupta, S.K.; Pathak, N.; Grover, V.; Tyagic, A.K. "Origin of visible photoluminescence in combustion synthesized α-Al2O3: Photoluminescence and EPR spectroscopy" Advanced Powder Technology 28 (6), 1505-1510 (2017), 2017 Линк
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1987
4. Marinova Ts.S.,, Stefanov P.K.. Adsorption and thermal evolution of acetylene on a Cu(100) surface. Surface Science, 191, 1-2, Elsevier, 1987, ISSN:00396028, DOI:10.1016/S0039-6028(87)81048-8, 66-74. SJR:0.792, ISI IF:1.931
Цитира се в:
6. Rad, A.S.et al., Application of pristine and Ni-decorated B12P12 nano-clusters as superior media for acetylene and ethylene adsorption: DFT calculations, Computational and Theoretical Chemistry, Volume 1109, 1 June 2017, Pages 1-9, 2017 Линк
5. Marinova, Ts. S., Kostov, K.L.. Adsorption of acetylene and ethylene on a clean Ir(111) surface. Surface Science, 181, 3, Elsevier, 1987, DOI:10.1016/0039-6028(87)90206-8, 573-585. ISI IF:1.925
Цитира се в:
7. Shi, X.R., Kong, H., Wang, S., Wang, H., Qin, Z. and Wang, J., Mechanistic Insights into Ethylene Transformations on Ir (111) by Density Functional Calculations and Microkinetic Modeling. ChemPhysChem, 18(8), pp.906-916, 2017., 2017
8. Ali Shokuhi, Khurshid Ayub, Adsorption properties of acetylene and ethylene molecules onto pristine and nickel-decorated Al12N12 nanoclusters, Materials Chemistry and Physics 194 (2017) 337-344., 2017
9. Zhao, Z.J., Genest, A. and Rösch, N., Identification of surface species by vibrational normal mode analysis. A DFT study, Surface Science, 664, pp.233-240, 2017., 2017
1988
6. Basu, P., Panayotov, D., Yates, J.T, Jr.. Rhodium-Carbon Monoxide Surface Chemistry: The Involvement of Surface Hydroxyl Groups on Al203 and Si02 Supports. Journal of the American Chemical Society, 110, 7, American Chemical Society, 1988, ISSN:0002-7863, DOI:10.1021/ja00215a010, 2074-2081. ISI IF:12.113
Цитира се в:
10. Yang, N.; Bent, S. F., "Investigation of inherent differences between oxide supports in heterogeneous catalysis in the absence of structural variations". Journal of Catalysis 2017, 351, 49-58; DOI: 10.1016/j.jcat.2017.04.003, 2017 Линк
11. Faroldi, B.; Múnera, J.; Falivene, J. M.; Ramos, I. R.; García, Á. G.; Fernández, L. T.; Carrazán, S. G.; Cornaglia, L., "Well-dispersed Rh nanoparticles with high activity for the dry reforming of methane". International Journal of Hydrogen Energy 2017, 42 (25), 16127-16138, 2017 Линк
12. Ding, D.; Yu, J.; Guo, Q.; Guo, X.; Xiao, X.; Mao, D.; Lu, G., "The effects of PVP-modified SiO2 on the catalytic performance of CO hydrogenation over Rh–Mn–Li/SiO2 catalysts". RSC Advances 2017, 7 (76), 48420-48428; DOI: 10.1039/C7RA07011J, 2017 Линк
13. Jo-Chi Tseng, "Microstructure Analysis of Nanosized Materials Based on X-Ray Diffraction Study: A Practical Protocol", Vorgelegt der Fakultät für Chemie und Biochemie der Ruhr-Universität Bochum, Thesis, 2017, 2017 Линк
7. Hadjiivanov , K., Klissurski, D., A. Davydov. Effect of the surface structure of metal oxides on their adsorption properties. J. Chem. Soc., Faraday Trans. 1, 84, Royal Society of Chemistry, 1988, DOI:10.1039/F19888400037, 37-40. ISI IF:1.848
Цитира се в:
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14. N. Zaouri, Different Approaches to Investigate the Interfacial Interactions between Natural Organic Matter and Metal Oxide, Ph. D. Thesis, King Abdullah University of Science and Technology, Thuwal, Kingdom of Saudi Arabia, 2017 [GS]., 2017
8. Zakhariev Z., Radev D.. Properties of Polycrystalline Boron Carbide Sintered in the Presence of W2B5 without Pressing. Journal of Materials Science Letters, 7, 7, 1988, ISSN:0261-8028, DOI:10.1007/s10855-005-4534-4, 695-696. ISI IF:0.474
Цитира се в:
15. Felice RubinoMario PisaturoAdolfo SenatorePierpaolo CarloneEmail, et al., "Tribological Characterization of SiC and B4C Manufactured by Plasma Pressure Compaction"Journal of Materials Engineering and Performance, 25 October 2017, 1-12, 2017 Линк
1989
9. Stoyanova, R., Angelov, S., Dafinova, R.. Identification of the center of self-activated luminescence in strontium carbonate by doping with lithium. Journal of Physics and Chemistry of Solids, 50, Elsevier, 1989, ISSN:00223697, DOI:10.1016/0022-3697(89)90478-2, 95-97. SJR:0.632, ISI IF:1.853
Цитира се в:
16. Arumugam, D., Thangapandian, M., Joshua Mathavan, J. L., Jayaram, A., Palanichamy, M., Selva Chandrasekaran, S., ... & Amirtham, M. F. B. (2017). Growth Mechanism of Pine-leaf-like Nanostructure from the Backbone of SrCO3 Nanorods using LaMer’s Surface Diffusion: Impact of Higher Surface Energy (γ = 38.9 eV/nm2){111} Plane Stacking Along⟨ 110⟩(γ = 3.4 eV/nm2) by First-Principles Calculations. Crystal Growth & Design 17 (12), 6394–6406., 2017 Линк
10. Hadjiivanov, K., Klissurski, D., Davydov, A.. Study of Phosphate-modified TiO2 (Anatase). Journal of Catalysis, 116, 1989, DOI:10.1016/0021-9517(89)90116-4, 498-505. ISI IF:6
Цитира се в:
17. T. He, L. Wang, F. Fabregat-Santiago, G. Liu, Y. Li, C. Wang and R. Guan, Electron trapping induced electrostatic adsorption of cations: a general factor leading to photoactivity decay of nanostructured TiO 2, J. Mater. Chem. A, 5 (2017) 6455 [ISI]., 2017 Линк
18. I.T. Ghampson, G. Pecchi, J.L.G. Fierro, A.Videla and N. Escalona, Catalytic hydrodeoxygenation of anisole over Re-MoO x/TiO 2 and Re-VO x/TiO 2 catalysts, Appl. Catal. B, 208 (2017) 60–74 [ISI]., 2017 Линк
1990
11. Angelov, S., Zhecheva, E., Stoyanova, R., Atanasov, M.. Bulk defects in Co3O4, pure and slightly doped with lithium, revealed by EPR of the tetrahedral Co2+ ions. Journal of Physics and Chemistry of Solids, 51, 10, 1990, ISSN:0022-3697, 1157-1161. ISI IF:1.853
Цитира се в:
19. Vladimirova, S. A., Rumyantseva, M. N., Filatova, D. G., Chizhov, A. S., Khmelevsky, N. O., Konstantinova, E. A., ... & Gaskov, A. M. (2017). Cobalt location in p-CoO x/n-SnO 2 nanocomposites: Correlation with gas sensor performances. Journal of Alloys and Compounds., Volume 721, Pages 249-260., 2017 Линк
20. Oliva, C., & Scavini, M. (2017). Electron Spin Resonance Applied to Nanosized-Doped Oxides. In EMR/ESR/EPR Spectroscopy for Characterization of Nanomaterials (pp. 91-133). Springer India., 2017 Линк
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12. Klissurski, D., Hadjiivanov, K., Kantcheva, M., Gyurova, L.. Study of peroxide-modified titanium dioxide (anatase). Journal of the Chemical Society, Faraday Transactions, 86, 1990, DOI:10.1039/FT9908600385, 385-388. ISI IF:4.49
Цитира се в:
21. M.C. de Oliveira Monteiro, P. Schmuki and M.S. Killian, Tuning Anatase Surface Reactivity toward Carboxylic Acid Anchor Groups, Langmuir, 33 (49) (2017) 13913–13922 ., 2017 Линк
22. L.P. Rivoira, M.L. Martínez, H. Falcon, A.R. Beltramone, J.M. Campos-Martin, J.L.G. Fierro and P. Tartaj, Probing the Catalytic Activity of Sulfate-Derived Pristine and Post-Treated Porous TiO2(101) Anatase Mesocrystals by the Oxidative Desulfurization of Dibenzothiophenes, ACS Omega, 2 (2017) 2351 [ISI]., 2017 Линк
23. A. Mohajeri and N.L. Dashti, Molecular adsorption of hydrogen peroxide on N- and Fe-doped titania nanoclusters, Appl. Surf. Sci., 407 (2017) 121–129 [ISI]., 2017 Линк
1991
13. Varadinov, R., Nikolov, V., Peshev, P., Mitov, I., Neykov, Kh.. New solvents for the growth of substituted BaFe12O19 single crystals from high-temperature solutions. Journal of Crystal Growth, 110, 4, Elsevier, 1991, ISSN:0022-0248, DOI:10.1016/0022-0248(91)90634-H, 763-768. SJR:0.752, ISI IF:1.481
Цитира се в:
24. Brightlin, B.C., Balamurugan, S., Magnetic, Micro-structural, and Optical Properties of Hexaferrite, BaFe12O19 Materials Synthesized by Salt Flux-Assisted Method (2017) Journal of Superconductivity and Novel Magnetism, 30 (1), pp. 215-225., 2017
14. Trendafilova, N., Kurbakova, A. P., Efimenko, I. A., Mitewa, M, Bontchev, P.. Infrared spectra of Pt(II) creatinine complexes. Normal coordinate analysis of creatinine and Pt(creat)2(NO2)2. Spectrochimica Acta Part A, 47, 5, Elsevier, 1991, 577-584. ISI IF:2.353
Цитира се в:
25. Thirumurugana, R., Babub, B., Anithaa, K., Chandrasekaran, J., Experimental and density functional theory (DFT): A dual approach to probe the key properties of creatininium l-tartrate monohydrate single crystal for nonlinear optical applications, Journal of Molecular Structure, Vol. 1149(5) 2017, pp. 48–57., 2017 Линк
26. Thirumurugan, R., Anitha, K., Experimental and computational studies on creatininium 4-nitrobenzoate - An organic proton transfer complex, Journal of Molecular Structure, Vol. 1146, 2017, pp. 273–284., 2017 Линк
15. Koseva, I., Iliev, K., Peshev, P.. Regions of existence of the SrTiO3 phase in the system SrO-TiO2-Li2O-B2O3. Materials Research Bulletin, 26, 1991, DOI:10.1016/0025-5408(91)90109-Y, 659-666. SJR:0.74, ISI IF:2.288
Цитира се в:
27. Wu, Yaoyao, et al. "Preparation and characterization of SrLi 2 Ti 6 O 14 C/Ag as lithium storage anode material for rechargeable batteries." Ceramics International 43.9 (2017): 7231-7236., 2017
28. Qian, Shangshu, et al. "Improve the lithium storage performance of SrLi 2 Ti 6 O 14 anode material by trivalent metal ion doping." Journal of Power Sources 343 (2017): 329-337., 2017
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16. Hadjiivanov, K., Klissurski, D., Busca, G., Lorenzelli, V.. Benzene–ammonia coadsorption on TiO2(anatase). J. Chem. Soc., Faraday Trans, 87, 1991, DOI:10.1039/FT9918700175, 175-178. ISI IF:4.49
Цитира се в:
29. T. Beutel, C. Bai, G. Woolery, S. McCarthy, J. McConnachie, C. Kliewer, K. Hajkowski and A. Thornburg, Acidity in Titania–Alumina Mixed Metal Oxides, Top. Catal., 60 (2017) 1565–1576, 2017 Линк
17. Hadjiivanov, K., Klissurski, D., Kantcheva, M., Davydov, A.. State and localization of cobalt, nickel and copper ions adsorbed on titania (anatase). Journal of the Chemical Society, Faraday Transactions, 87, 1991, DOI:10.1039/FT9918700907, 907-911. ISI IF:4.49
Цитира се в:
30. I. Ali, A.A. Qureshi, Z.A. Alothman and A. Alwarthan, in Kirk-Othmer Encyclopedia of Chemical Technology, John Wiley & Sons, 2017, p. 1 [Scopus]., 2017 Линк
18. Kostov, K.L., Jakob, P., Rauscher, H., Menzel, D.. Interaction of CO with O, N and NO on Ru(001): Evidence for bridge-adsorbed CO, site changes, and formation of isocyanate species. Journal of Physical Chemistry B, 95, 20, ACS Publications, 1991, ISSN:0022-3654, DOI:10.1021/j100173a044, 7785-7791. ISI IF:3.302
Цитира се в:
31. Cheuquepán, W., Orts, J.M., Rodes, A., Feliu, J.M., DFT and spectroelectrochemical study of cyanate adsorption on gold single crystal electrodes in neutral medium, Journal of Electroanalytical Chemistry, 793 (2017) 147-156., 2017 Линк
19. Hadjiivanov, K., Vassileva, E., Kantcheva, M., Klissurski, D.. IR Spectroscopy Study of Silver Ions Adsorbed on Titania (Anatase). Materials Chemistry and Physics, 28, 4, 1991, DOI:10.1016/0254-0584(91)90072-3, 367-377. SJR:0.818, ISI IF:2.259
Цитира се в:
32. H.P. Wu, H. Ling, Z. Zhang, Y.B. Li, L.H. Liang and G.Z. Chai, Research progress on photocatalytic activity of ferroelectric materials, Acta Phys. Sinica, 66 (2017) 167702, 2017 Линк
33. A. Gould, Properties of bimetallic AuAg nanoparticles for H2 production, Ph. D. Thesis, University College London, London, UK, 2017 [GS]., 2017
1992
20. Kostov, K.L., Rauscher, H., Menzel, D.. Adsorption of CO on oxygen-covered Ru(001) surface. Surface Science, 278, 1-2, Elsevier, 1992, DOI:10.1016/0039-6028(92)90584-S, 62-86. ISI IF:2.062
Цитира се в:
34. Zhao, P., He, Y., Liu, S., Cao, D.B., Wen, X., Xiang, H., Li, Y.W. and Jiao, H., Adsorption and dissociation of H 2 O and CO 2 on the clean and O-pre-covered Ru (0001) surface. Applied Catalysis A: General, 540, pp.31-36, 2017, 2017
21. Angelov, S., Friebel, Cl., Zhecheva, E., Stoyanova, R.. EPR study of Ni 3+-doped ACoO 2 (A= H, Li) powders. Journal of Physics and Chemistry of Solids, 53, 3, Pergamon, 1992, 443-448. ISI IF:2.048
Цитира се в:
35. Mallick, M. M., & Vitta, S. (2017). Magnetic behavior of Ni substituted LiCoO 2–magnetization and electron paramagnetic resonance studies. Materials Chemistry and
page 6/232
Physics., Volume 198, Pages 266-274., 2017 Линк
22. Mehandjiev, D., Naidenov, A.. Ozone Decomposition on α-Fe2O3 Catalyst. Ozone: Science & Engineering, 14, 4, Taylor&Francis, 1992, DOI:10.1080/01919519208552273, 276-282. ISI IF:0.95
Цитира се в:
36. Kun-Yi Andrew Lin, Tien-Yu Lin, Yu-Chien Chena, Yi-Feng Lin, Ferrocene as an efficient and recyclable heterogeneous catalyst for catalytic ozonation in water, Catalysis Communications, Volume 95, 10 May 2017, Pages 40-45, 2017 Линк
23. Angelov, S., Drillon M., Zhecheva, E., Stoyanova, R., Belaiche, M., Derory, A., Herr, A.. Cobalt hydroxide nitrate hydrate, Co(OH)(NO3).cntdot.H2O: a novel double-chain compound with competing interactions. Inorganic Chemistry, 31, 8, ACS Publishing, 1992, DOI:10.1021/ic00034a037, 1514-1517. ISI IF:4.762
Цитира се в:
37. Pardasani R.T., Pardasani P. (2017) Magnetic properties of cobalt(II) hydroxide nitrate. In: Gupta A. (eds) Magnetic Properties of Paramagnetic Compounds. Molecules and Radicals, vol 31G. Springer, Berlin, Heidelberg, 2017 Линк
24. Dimitriev, Y., Klissurski, D., Iordanova, R.. Glass formation in V2O5-MoO3-Fe2O3. Journal of Non-Crystalline Solids, 151, 3, Elsevier, 1992, ISSN:0022-3093, DOI:10.1016/0022-3093(92)90039-M, 268-271. SJR:0.692, ISI IF:2.124
Цитира се в:
38. Rao, A. L., Noel, M., Kamalasree, H., “Ir & Ftir Studies of Na2O-Bi2o-B2O3 Glasses Doped With MoO3” (2017) International Journal of Engineering Sciences & Research Technology, 6(10), 362- 365, 2017 Линк
25. Kantcheva, M., Bushev, V., Hadjiivanov, K.. Nitrogen dioxide adsorption on deuteroxylated titania (anatase). Journal of the Chemical Society, Faraday Transactions, 88, 1992, DOI:10.1039/FT9928803087, 3087-3089. ISI IF:4.49
Цитира се в:
39. R. Zhang, C. Wang, K. Li, X. Sun, P. Ning, L. Tang and Y. Liu, Influence of Ca doping and calcination temperature on selective catalytic oxidation of NO over Mn–Ca–Ox–(CO3)y catalysts, New J. Chem., 41 (2017) 11742 [ISI]., 2017 Линк
40. C. Liu, Q. Ma, H. He, G. He, J. Ma, Y. Liu and Y. Wu, Structure–activity relationship of surface hydroxyl groups during NO2 adsorption and transformation on TiO2 nanoparticles, Environ. Sci. Nano, 4 (2017) 2388[ISI]., 2017 Линк
26. Lange, F., Hadjiivanov, K., Schmelz, H., Knözinger, H.. Low temperature infrared study of carbon monoxide adsorption on sulfated titania. Catalysis Letters, 16, 1, 1992, ISSN:1572-879X, DOI:10.1007/BF00764359, 97-107. ISI IF:2.307
Цитира се в:
41. A.N. Dobrotvorskaia, O.S. Pestsov and A.A. Tsyganenko, Lateral Interaction between Molecules Adsorbed on the Surfaces of Non-Metals, Top. Catal., 60(2017) 1506–1521, 2017 Линк
1993
27. Trapalis, C., Kozhuharov, V., Samuneva, B., Stefanov, P.. Sol-gel Processing of Ti-containing thin
page 7/232
coatings” Part II XPS Studies. Journal of Materials Science, 28, 5, Springer Netherlands, 1993, ISSN:0022-2461, DOI:10.1007/BF01191964, 1276-1282. SJR:0.929, ISI IF:2.371
Цитира се в:
42. Huang, W.C., et al., Novel nitrogen-doped anatase TiO2 mesoporous bead photocatalysts for enhanced visible light response, Ceramics International, Volume 43, Issue 13, 2017, Pages 9992-9997, 2017 Линк
28. Khrussanova, M., Zhecheva, E, Stoyanova, R., Peshev, P., Darriet, B., Chambon, M.. Hydrogen absorption by nickel-containing vanadium-titanium alloys. Materials Research Bulletin, 28, 4, 1993, ISSN:0025-5408, 377-384. ISI IF:2.446
Цитира се в:
43. Kumar, S., Jain, A., Ichikawa, T., Kojima, Y., & Dey, G. K. (2017). Development of vanadium based hydrogen storage material: a review. Renewable and Sustainable Energy Reviews, 72, 791-800., 2017 Линк
29. Todorova O., Vassileva P., Lakov L.. Synthesis and characterization of inorganic sorbents containing pyrazolone. Fresenius J. Anal. Chem., 346, 1993, 943-946. ISI IF:1.39
Цитира се в:
44. Pratiwi, D., Saprudin, D., & Rohaeti, E. (2017, March). Synthesis of activated carbon-nanomagnetite-pyrazolone (1-phenyl-3-methyl-5-pyrazolone) composite as adsorbent for Cd2+. In IOP Conference Series: Earth and Environmental Science (Vol. 58, No. 1, p. 012003). IOP Publishing, 2017
30. Uzunova E, Klissurski D, Mitov I, Stefanov P. Cobalt-Iron Hydroxidecarbonate Precursor for the Synthesis of High-Dispersity Spinel Mixed Oxides. Chem. Mater, 5, ACS, 1993, 576-584. ISI IF:8.35
Цитира се в:
45. Bouazizi, N. et al., Montmorillonite-supported Pd0, Fe0, Cu0 and Ag0 nanoparticles: Properties and affinity towards CO2, Applied Surface Science, Volume 402, 30 April 2017, Pages 314-322, 2017 Линк
46. Labiadh, H. et al., ZnS quantum dots and their derivatives: Overview on identity, synthesis and challenge into surface modifications for restricted applications ZnS quantum dots and their derivatives, Journal of King Saud University - Science, Open Access , Volume 29, Issue 4, October 2017, Pages 444-450, 2017 Линк
47. Ercolino, G. et al., Reactivity of Mixed Iron–Cobalt Spinels in the Lean Methane Combustion, Topics in Catalysis, Volume 60, Issue 17-18, 1 November 2017, Pages 1370-1379, 2017 Линк
31. Radev D. D., Zakhariew Z., Marinich M.. Corrosion Resistance of B4C-MexBy Composite Materials. Journal of Alloys and Compounds, 1993, 93-96. ISI IF:2.999
Цитира се в:
48. ДЮКОВА КСЕНИЯ ДМИТРИЕВНА., РАЗРАБОТКА ТЕХНОЛОГИИ ПОЛУЧЕНИЯ МИКРОРАЗМЕРНЫХ ПОРОШКОВ КАРБИДА БОРА, КАРБИДА ХРОМА И ДИБОРИДА ХРОМА С ИСПОЛЬЗОВАНИЕМ НАНОВОЛОКНИСТОГО УГЛЕРОДА, 2017 Линк
49. Chattopadhyay, A.K."Hot pressing versus sintering: Some striking contrasts while dealing with boron carbide based ceramic blends." Advances in Powder Metallurgy and Particulate Materials Volume 2017-June, 2017, Pages 741-749, 2017 Линк
50. Far, S.H.E."Galvanic corrosion behavior of plain carbon steel-B4C composite in 3.5% NaCl
page 8/232
solution with electrochemical noise".Journal of Central South University, Volume 24, Issue 1, 1 January 2017, 2017 Линк
32. Rauscher, H., Kostov, K.L., Menzel, D.. Adsorption and decomposition of hydrazine on Ru(001). Chemical Physics, 177, 2, Elsevier, 1993, DOI:10.1016/0301-0104(93)80027-7, 473-496. SJR:0.611, ISI IF:1.652
Цитира се в:
51. Tafreshi, S.S., Roldan, A. and de Leeuw, N.H., Micro-kinetic simulations of the catalytic decomposition of hydrazine on the Cu (111) surface. Faraday Discussions, 197, pp.41-57, 2017 ., 2017 Линк
33. Naydenov A, Mehandjiev D. Complete Oxidation of Benzene on MnO2 by Ozone. Applied Catalysis A: General, 97, 1, 1993, DOI:10.1016/0926-860X(93)80063-V, 17-22. ISI IF:3.94
Цитира се в:
52. Mostafa Aghbolaghy, Jafar Soltan, Ning Chen, Role of Surface Carboxylates in the Gas Phase Ozone-Assisted Catalytic Oxidation of Toluene, Catalysis Letters, September 2017, Volume 147, Issue 9, pp 2421–2433, 2017 Линк
53. Yang Liu, Pengyi Zhang, Catalytic decomposition of gaseous ozone over todorokite-type manganese dioxides at room temperature: Effects of cerium modification, Applied Catalysis A: General, Volume 530, 25 January 2017, Pages 102-110, 2017 Линк
34. Trendafilova, N., Nikolov, G.St., Bauer, G., Kellner, R.. Molecular structures and infrared spectra of five-coordinate copper(II) complexes including one tridentate diethylenetriamine ligand. Inorganica Chimica Acta, 210, 1, Elsevier, 1993, 77-85. ISI IF:2.046
Цитира се в:
54. Chow, C.-F. Ho, P.-Y., Wong, W.-L., Lu, Y.-J., Tang Q., and Gong, C.-B. Catalyst displacement assay: a supramolecular approach for the design of smart latent catalysts for pollutant monitoring and removal, DOI: 10.1039/C6SC05584B (Edge Article), Chem. Sci., 2017, 8, 3812-3820., 2017 Линк
35. Stoyanova, R., Zhecheva, E., Friebel, C.. Magnetic interactions in layered LiNiO2 revealed by EPR of Ni3+. Journal of Physics and Chemistry of Solids, 54, 1, 1993, ISSN:0022-3697, 9-13. SJR:0.639, ISI IF:2.048
Цитира се в:
55. Mallick, M. M., & Vitta, S. (2017). Magnetic behavior of Ni substituted LiCoO 2–magnetization and electron paramagnetic resonance studies. Materials Chemistry and Physics., Volume 198, Pages 266-274., 2017 Линк
36. Zhecheva, E., Stoyanova, E.. Stabilization of the layered crystal structure of LiNiO2 by Co-substitution. Solid State Ionics, 66, 1-2, 1993, ISSN:0167-2738, 143-149. ISI IF:2.561
Цитира се в:
56. Lee, E.; Iddir, H.; Benedek, R. (2017) "Rapidly convergent cluster expansion and application to lithium ion battery materials", Phys. Rev. B95, 085134., 2017 Линк
57. Merla, Yu; PhD Thesis "Development of new on-board battery diagnosis/prognosis tools for extending lifetime and mitigating failure"; (2017) Imperial College London, 2017 Линк
58. Li, W., Song, B., & Manthiram, A. (2017). High-voltage positive electrode materials for lithium-ion batteries, Chem. Soc. Rev., 2017, 46, 3006-3059., 2017 Линк
59. Schipper, F., Erickson, E. M., Erk, C., Shin, J. Y., Chesneau, F. F., & Aurbach, D. (2017).
page 9/232
Review—Recent Advances and Remaining Challenges for Lithium Ion Battery Cathodes I. Nickel-Rich, LiNixCoyMnzO2. Journal of The Electrochemical Society, 164(1), A6220-A6228., 2017 Линк
60. Xu, J., Lin, F., Doeff, M. M., & Tong, W. (2017). A review of Ni-based layered oxides for rechargeable Li-ion batteries. .J. Mater. Chem. A, 2017, 5, 874-901., 2017 Линк
61. Myung, S. T., Maglia, F., Park, K. J., Yoon, C. S., Lamp, P., Kim, S. J., & Sun, Y. K. (2017). Nickel-Rich Layered Cathode Materials for Automotive Lithium-Ion Batteries: Achievements and Perspectives., ACS Energy Lett., 2017, 2 (1), pp 196–223., 2017 Линк
62. Kasnatscheew, J., Evertz, M., Streipert, B., Wagner, R., Nowak, S., Laskovic, I. C., & Winter, M. (2017). Improving cycle life of layered lithium transition metal oxide (LiMO 2) based positive electrodes for Li ion batteries by smart selection of the electrochemical charge conditions. Journal of Power Sources, 359, 458-467., 2017 Линк
63. Manthiram, A., Song, B., & Li, W. (2017). A perspective on nickel-rich layered oxide cathodes for lithium-ion batteries. Energy Storage Materials, 6, 125-139., 2017 Линк
64. Kasnatscheew, J., Evertz, M., Kloepsch, R., Streipert, B., Wagner, R., Cekic Laskovic, I., & Winter, M. (2017). Learning from Electrochemical Data: Simple Evaluation and Classification of LiMO2‐type‐based Positive Electrodes for Li‐Ion Batteries. Energy Technology., Volume 5, Issue 9, Pages 1670–1679., 2017 Линк
65. Mallick, M. M., & Vitta, S. (2017). Magnetic behavior of Ni substituted LiCoO 2–magnetization and electron paramagnetic resonance studies. Materials Chemistry and Physics, Volume 198, Pages 266-274., 2017 Линк
66. Li, C., Wang, Z. B., Wang, Q., & Gu, D. M. (2017). Recent advances in cathode materials for Li–S battery: structure and performance. Rare Metals, 36(5), 365-380., 2017 Линк
67. Melendez-Ceballos, A. (2017). Adequacy of new electrolyte compositions and nanostructured protective layers for the cathode of molten carbonate fuel cells (Doctoral dissertation, Université Pierre et Marie Curie-Paris VI); Thèse Doctor of Chemistry Physique et Chimie Analytique, 2017 Линк
68. Aregai, G. T., Babu, K. V., Babu, B. V., & Veeraiah, V. Effect of calcination and sintering temperature on the properties of layered LiNi1/3Co1/3Mn1/3O2 cathode material for lithium-ion batteries, International Journal of ChemTech Research CODEN (USA): IJCRGG, ISSN: 0974-4290, ISSN(Online):2455-9555, Vol.10 No.10, pp 479-489, 2017., 2017 Линк
69. Федоров, И. С. РАЗРАБОТКА ОСНОВ ТЕХНОЛОГИИ ФОРМИРОВАНИЯ ЭЛЕКТРОДОВ ТОНКОПЛЕНОЧНОГО ЛИТИЙ-ИОННОГО АККУМУЛЯТОРА МЕТОДОМ МАГНЕТРОННОГО РАСПЫЛЕНИЯ., 2017 Линк
1994
37. Balarew, Chr., Spasov, V., Tepavitcharova, S. Pyro- and ferroelectric properties of nGly. MeCl2. 2H20 (Me = Mn, Co; n = 1, 2). Ferroelectrics, 158, 1, Taylor and Francis Group, 1994, ISSN:0015-0193, DOI:http://dx.doi.org/10.1080/00150199408216009, 157-162. SJR:0.264, ISI IF:0.491
Цитира се в:
70. Bette S, B. Hinrichsen, Dinnebier R., On two glycine zinc sulfate phases with exotic cation coordination geometries. Z. Anorg. Allg. Chem., 643, pp. 1855-1860, 2017, 2017 Линк
38. Stoyanova, R., Zhecheva, E., Zarkova, L.. Effect of Mn-substitution for Co on the crystal structure and acid delithiation of LiMnyCo1-yO2 solid solutions. Solid State Ionics, 73, 3-4, 1994, ISSN:0167-2738, 233-240. SJR:0.851, ISI IF:2.38
Цитира се в:
page 10/232
71. Peter Jakes, Jülich, Leonard Kröll, Andrew Ozarowski, Johan van Tol, Daria Mikhailova, Helmut Ehrenberg, Rüdiger-A. Eichel, Coordination of the Mn4+-Center in Layered Li[Co0.98Mn0.02]O2 Cathode Materials for Lithium-Ion Batteries, Z. Phys. Chem. 2017; 231(4): 905–922., 2017 Линк
72. Waller, D. (2017). U.S. Patent No. 9, 725, 319. Washington, DC: U.S. Patent and Trademark Office., 2017 Линк
73. Zhang, L., Wang, H., & Wang, L. (2017). Effect of Li content on the electrochemical performance of Li1+ x (Mn0. 675Ni0. 1625Co0. 1625) 1− xO2 cathode materials for high-power Li-ion batteries. Ionics, 23(4), 829-835., 2017 Линк
74. Mizuno, S., Fujishiro, H., Ishizawa, M., Naito, T., Katsui, H., & Goto, T. (2017). Thermoelectric properties of LiCo1− x M x O2 (M = Cu, Mg, Ni, Zn): Comparison with Li y CoO2 and Na y CoO2 systems. Japanese Journal of Applied Physics, 56(2), 021101., 2017 Линк
39. Christov, C., Balarew, Chr., Tepavitcharova, S.. Isomorphic co-crystallization of ammonium and rubidium brom-carnallites. Coll. Czech. Chem. Commun, 54, 8, Wiley-VCH., 1994, ISSN:0010-0765, DOI:https://doi.org/10.1135/cccc19941815, 1815-1819. ISI IF:1.137
Цитира се в:
75. Gao, D., Li, D., Li, W. , Solubility of RbCl and CsCl in pure water at subzero temperatures, heat capacity of RbCl(aq) and CsCl(aq) at T = 298.15 K, and thermodynamic modeling of RbCl + H2O and CsCl + H2O systems (2017) Journal of Chemical Thermodynamics, 104, 201 - 211, 2017 Линк
40. Nikolov, V., Peshev, P.. A new solvent for the growth of Y1-χNdχAl3(BO3)4 single crystals from high-temperature solutions. Journal of Crystal Growth, 144, 3-4, Elsevier, 1994, ISSN:00220248, DOI:10.1016/0022-0248(94)90454-5, 187-192. SJR:0.735, ISI IF:1.632
Цитира се в:
76. Leonyuk, N.I., Half a century of progress in crystal growth of multifunctional borates RAl3(BO3)4 (R = Y, Pr, Sm–Lu) (2017) Journal of Crystal Growth, 476, pp. 69-77, 2017 Линк
41. Choisnet, J., Abadzhieva, N., Stefanov, P., Klissurski, D., Bassat, J., Rives, V., Minchev, L.. XPS, TDS and Temperature-programmed Reduction Study of LaNiO3 and LaNiO4 Catalysis for Methanol Oxidation”. Journal of the Chemical Society, Faraday Transactions, 90, 13, Royal Society of Chemistry, 1994, ISSN:09565000, DOI:10.1039/FT9949001987, 1987-1991. ISI IF:1.848
Цитира се в:
77. Morales, R.a, et al, Enhancing xylose aqueous-phase hydrogenation catalytic performance of A-site Ce substituted and B-site Rh doped reduced perovskites. Molecular CatalysisVolume 436, 2017, Pages 182-189, 2017 Линк
78. Natile, M.M. et al., Strontium and copper doped LaCoO3: New cathode materials for solid oxide fuel cells?, International Journal of Hydrogen EnergyVolume 42, Issue 3, 19 January 2017, Pages 1724-1735, 2017 Линк
79. Shao, Z. et al., Photon-induced interfacial charge transfer mechanism of porous silicon/TiO2 nanoparticles for photoelectrochemical performance, Journal of Photochemistry and Photobiology A: ChemistryVolume 338, 1 April 2017, Pages 72-84, 2017 Линк
42. Shimov, D., Nikolov, V., Nenov, A.. Growth of LiB3O5 single crystals in the Li2O-B2O3 system. Journal of Crystal Growth, 144, 3-4, Elsevier, 1994, ISSN:0022-0248, DOI:10.1016/0022-0248(94)90459-6, 218-222. SJR:0.752, ISI IF:1.481
page 11/232
Цитира се в:
80. Zheng, G., Yao, Y., Zhang, S., Wan, S., You, J., Structural studies of a Li2O·4B2O3 melt by high-temperature Raman spectroscopy and density functional theory (2017) CrystEngComm, 19 (38), pp. 5721-5726, 2017 Линк
43. Hadjiivanov, K., Saur, O., Lamotte, J., Lavalley, J.C.. FT-IR Spectroscopic Study of NH3 and CO Adsorption and Coadsorption on TiO2 (Anatase). Z. Phys. Chem., 187, 1994, 281-292. ISI IF:1
Цитира се в:
81. Y. Hirose, A. Itadani, T. Ohkubo, H. Hashimoto, J. Takada, S. Kittaka and Y. Kuroda, Tubular nitrogen-doped TiO2 samples with efficient photocatalytic properties based on long-lived charge separation under visible-light irradiation: synthesis, characterization and reactivity, Dalton Trans., 46 (2017) 4435 [ISI]., 2017 Линк
44. Trendafilova, N., Nikolov, G.St., Kellner, R., Bauer, G.. Low-temperature Fourier transform infrared spectra of tetrachlorozincate, tetrachloronickelate and tetrachlorocuprate with different counter ions. Vibrational Spectroscopy, 6, 3, Elsevier, 1994, 351-362. ISI IF:2.003
Цитира се в:
82. Pulletikurthi, G., Ghazvini, M.S., Cui, T., Borisenko, N., Carstens, T., Borodin A. and Endres, F., Electrodeposition of zinc nanoplates from an ionic liquid composed of 1-butylpyrrolidine and ZnCl2: electrochemical, in situ AFM and spectroscopic studies, DOI: 10.1039/C6DT04149C (Paper) Dalton Trans., 2017, 46, 455-464., 2017 Линк
45. Iordanova, R., Dimitrov, V., Dimitriev, Y., Klissurski, D.. Glass formation and structure of glasses in the V2O5-MoO3-Bi2O3 system. Journal of Non-Crystalline Solids, 180, 1, Elsevier, 1994, ISSN:00223093, DOI:10.1016/0022-3093(94)90397-2, 58-65. SJR:0.753, ISI IF:1.766
Цитира се в:
83. Hanif, F., Aamir, M., NaeemAshiq, M., Yasmeen, G., Manzoor, S., Ijaz, S., Ansari, T.M., Abbas, S., Yousaf, A.B. Photoenhanced degradation of methylene blue on polyaniline engineered multiferroics (BiAl0.3Mn0.3Fe0.4O3) nanocomposite systems: A comprehensive study (2017) Desalination and Water Treatment, 95, pp. 286-294., 2017
84. Astuti, Y., et al. "Studying Impact of Different Precipitating Agents on Crystal Structure, Morphology and Photocatalytic Activity of Bismuth Oxide" (2017) Bulletin of Chemical Reaction Engineering & Catalysis, 12(3), pp.478-484., 2017 Линк
85. Aly, K.A., Saddeek, Y. , Abbady, G., Alharbi, S.R., “Discussions of the physical properties of MoO3-V2O5–PbO films” (2017) Journal of Non-Crystalline Solids, 475, 161-166, 2017 Линк
86. Shaaban, K.S., Abo-naf, S.M., Abd Elnaeim, A.M., Hassouna, M.E.M. Studying effect of MoO3 on elastic and crystallization behavior of lithium diborate glasses (2017) Applied Physics A: Materials Science and Processing, 123 (6), art. no. 457, 2017 Линк
46. Radev D. D., Klisurski D.. Properties of TiB2 Powders Obtained in a Mechanochemical Way. Journal of Alloys and Compounds, 206, 1, 1994, ISSN:0925-8388, DOI:10.1016/0925-8388(94)90008-6, 39-41. ISI IF:2.999
Цитира се в:
87. J.E. Oghenevweta, D. Wexler, A. Calka, Sequence of phase evolution during mechanically induced self-propagating reaction synthesis of TiB and TiB2 via magnetically controlled ball milling of titanium and boron powders, Journal of Alloys and Compounds; 701 (2017) 380-391., 2017 Линк
88. ERHUVWU JOSEPH OGHENEVWETA, REACTION SEQUENCES AND MECHANISMS DURING
page 12/232
CONTROLLED BALL MILLING OF TITANIUM WITH CARBON, BORON AND NITROGEN, Doctor of Philosophy); University of Wollongong; 2017, 2017 Линк
47. Vassileva, E., Hadjiivanov, K., Mandjukov, P.. Adsorption of Cr6+ oxo anions on pure and peroxide-modified TiO2 (anatase). Colloids and Surfaces A: Physicochemical and Engineering Aspects, A90, 1994, DOI:10.1016/0927-7757(94)02890-7, 9-15. ISI IF:2.75
Цитира се в:
89. M. Krawczyk-Coda and E. Stanisz, Determination of fluorine in herbs and water samples by molecular absorption spectrometry after preconcentration on nano-TiO2 using ultrasound-assisted dispersive micro solid phase extraction, Anal. Bioanal. Chem., 409 (2017) 6439, 2017 Линк
90. S. Mitra, A. Sarkar and S. Sen, Removal of chromium from industrial effluents using nanotechnology: a review, Nanotechnol. Environ. Eng., 2 (2017) 11, 2017 Линк
48. Abadzjieva N., Tzokov P., Uzunov I., Minkov V., Klissurski D., Rives V.. Methanol oxidation to formaldehyde on bismuth phosphate-based catalysts. Reac. Kinet. Catal. Lett., 53, 2, Akadamiai Kiado, 1994, ISSN:1878-5190, 413-418. SJR:0.41, ISI IF:1.515
Цитира се в:
91. Trilochan Swain, Gouri Sankhar Brahma, Synthesis, Characterization and Thermal Property of Phosphate and Sulfate Mixtures, Journal of Inorganic and Organometallic Polymers and Materials, 27 (2017) 131–142 DOI: 10.1007/s10904-016-0454-z, 2017 Линк
92. Ouchabi, M.; Baalala, M.; Elaissi, A.; et al., Synthesis and characterization of vanadiumoxidecatalysts supported on copper orthophosphates, XII MAGHREB DAYS OF MATERIAL SCIENCES Book Series: IOP Conference Series-Materials Science and Engineering, Volume: 186 Article Number: UNSP 012013 (2017), Edited by: Ahaitouf, A; Ben Mohammadi, Z., 2017
49. Hadjiivanov, K., Bushev, V., Kantcheva, M., Klissurski, D.. Infrared spectroscopy study of the species arising during nitrogen dioxide adsorption on titania (anatase). Langmuir, 10, 1994, DOI:10.1021/la00014a021, 464-471. ISI IF:3.23
Цитира се в:
93. X. Sun, A.H.M. Shahadat Hussain, M. Chi, X. Cheng and B.J. Tatarchuk, Persistent adsorptive desulfurization enhancement of TiO2 after one-time ex-situ UV-treatment, Fuel, 193 (2017) 95 [ISI]., 2017 Линк
94. H. Hirakawa, M. Hashimoto, Y. Shiraishi and T. Hirai, Selective Nitrate-to-Ammonia Transformation on Surface Defects of Titanium Dioxide Photocatalysts, ACS Catal., 7 (2017) 3713 [ISI]., 2017 Линк
95. F. Gao, X. Tang, H. Yi, S. Zhao, C. Li, J. Li, Y. Shi and X. Meng, A Review on Selective Catalytic Reduction of NOx by NH3 over Mn–Based Catalysts at Low Temperatures: Catalysts, Mechanisms, Kinetics and DFT Calculations, Catalysts, 7 (2017) 199 [ISI]., 2017 Линк
96. H. Li, L. Zhu, J. Wang, L. Li, P.H. Lee, Y. Feng and K. Shih, Effect of Nitrogen Oxides on Elemental Mercury Removal by Nanosized Mineral Sulfide, Environ. Sci. Technol., 51 (2017) 8530 [ISI]., 2017 Линк
97. H. Niu, K. Li, B. Chu, W. Su and J. Li, Heterogeneous Reactions between Toluene and NO2 on Mineral Particles under Simulated Atmospheric Conditions, Environ. Sci. Technol., 51 (2017) 9596 [ISI]., 2017 Линк
98. W. Liu, X. He, S. Pang and Y. Zhang, Effect of relative humidity on O3 and NO2 oxidation of SO2 on α-Al2O3 particles, Atmos. Environ., 167 (2017) 245 [ISI]., 2017 Линк
page 13/232
99. I. Krivtsov, M. Ilkaeva, E. Salas-Colera, Z. Amghouz, J.R. Garcia, E. Diaz, S. Ordonez and S. Villar-Rodil, Consequences of Nitrogen Doping and Oxygen Enrichment on Titanium Local Order and Photocatalytic Performance of TiO2 Anatase, J. Phys. Chem. C, 121 (2017) 6770 [ISI]., 2017 Линк
100. L. Chen, R. Li, Z. Li, F. Yuan, X. Niu and Y. Zhu, Structure–activity relationship of surface hydroxyl groups during NO 2 adsorption and transformation on TiO 2 nanoparticles, Catal. Sci. Technol., 7 (2017) 3243 [ISI]., 2017 Линк
101. C. Liu, Q. Ma, H. He, G. He, J. Ma, Y. Liu and Y. Wu, Structure–activity relationship of surface hydroxyl groups during NO2 adsorption and transformation on TiO2 nanoparticles, Environ. Sci. Nano, 4 (2017) 2388[ISI]., 2017 Линк
102. K. Fujiwara, Metal-Support Interactions in Flame-made Metals on Metal Oxides for Environmental Applications, Ph. D. Thesis, ETH, Zurich, Switzerland, 2017 [GS]., 2017 Линк
103. C.P. Theologides, G.G. Olympiou, P.G. Sawa, K. Kapnisis, A. Anayiotos, C.N. Costa, Mechanistic aspects (SSITKA-DRIFTS) of the catalytic denitrification of water with hydrogen on Pd-Cu supported catalysts, Appl. Catal. B, 205 (2017) 443-454., 2017 Линк
104. K. Fujiwara, S. E. Pratsinis, Atomically dispersed Pd on nanostructured TiO2 for NO removal by solar light, AIChE J. 63 (2017) 139-146., 2017 Линк
105. F. Gao, X. Tang, H. Yi, J. Li, S. Zhao, J. Wang, C. Chu, C. Li, Promotional mechanisms of activity and SO2 tolerance of Co- or Ni-doped MnOx-CeO2 catalysts for SCR of NOx with NH3 at low temperature, Chem. Eng. J., 317 (2017) 20-31., 2017 Линк
106. X. Li, Y. Sun, T. Xiong, G. Jiang, Y. Zhang, Z. Wu and F. Dong, Activation of amorphous bismuth oxide via plasmonic Bi metal for efficient visible-light photocatalysis, J. Catal., 352 (2017) 102-112., 2017 Линк
107. M. Sridhar, D. Ferri, J.A. van Bokhoven, O. Kröcher, Water-assisted oxygen activation during gold-catalyzed formic acid decomposition under SCR-relevant conditions, J. Catal., 349 (2017) 197-207., 2017 Линк
50. Hadjiivanov, K., Saint-Just, J., Che, M., Tatibouet, J.-M., Lamotte, J., Lavalley, J.-C.. Preparation and Characterization of Multiple Ion-exchanged Pt/TiO2 Catalysts. J. Chem. Soc., Faraday Trans., 90, 1994, DOI:10.1039/FT9949002277, 2277-2281. ISI IF:4.493
Цитира се в:
108. L. DeRita, S. Dai, K. Lopez-Zepeda, N. Pham, G.W. Graham, X. Pan and P. Christopher, Catalyst Architecture for Stable Single Atom Dispersion Enables Site-Specific Spectroscopic and Reactivity Measurements of CO Adsorbed to Pt Atoms, Oxidized Pt Clusters, and Metallic Pt Clusters on TiO2., J. Am. Chem. Soc., 139 (2017) 14150 [ISI], 2017 Линк
109. S. Liu, J. Miles Tan, A. Gulec, L.A. Crosby, T.L. Drake, N.M. Schweitzer, M. Delferro, L.D. Marks, T.J. Marks and P.C. Stair, Stabilizing Single-Atom and Small-Domain Platinum via Combining Organometallic Chemisorption and Atomic Layer Deposition, Organometallics, 36 (2017) 818 [ISI]., 2017 Линк
51. Iordanova, R., Dimitriev, Y., Dimitrov, V., Klissurski, D.. Structure of V2O5-MoO3-Fe2O3 glasses. Journal of Non-Crystalline Solids, 167, 1-2, Elsevier, 1994, ISSN:00223093, DOI:10.1016/0022-3093(94)90369-7, 74-80. SJR:0.753, ISI IF:1.766
Цитира се в:
110. Lü, M., Jo, H., Oh, S.-J., Lee, S., Choi, K.-Y., Yu, Y., Ok, K.M. Syntheses, Structures, and Characterization of Quaternary Tellurites, Li3MTe4O11(M = Al, Ga, and Fe) (2017) Inorganic Chemistry, 56 (10), pp. 5873-5879, 2017 Линк
111. Sable, D.B., Khirade, P.P., Birajdar, S.D., Pandit, A.A., Jadhav, K.M. "Effect of iron oxide (Fe2O3) on the structural, optical, electrical, and dielectric properties of SrO–V2O5
page 14/232
glasses" (2017) Glass Physics and Chemistry, 43 (4), pp. 302-312, 2017 Линк
112. Klimashin, A. A., and Belousov., V.V. "Oxygen Ion Transport in Molten Oxide Membranes for Air Separation and Energy Conversion" (2017) Journal of The Electrochemical Society 164, no. 8, H5353-H5356, 2017 Линк
113. Jeong, H. J., Cha, J. M., & Ryu, B. K. " Study on the Electrical Conductivity and Catalytic Property by Structural Change of 70V2O5-10Fe2O3-13P2O5-7B2O3 Glass with Crystallization" (2017) Journal of the Korean Ceramic Society, 54(5), 406-412., 2017 Линк
52. Hadjiivanov, K., Busca, G. Surface Chemistry of Oxidized and Reduced Chromia: a Fourier Transform Infrared Spectroscopy Study. Langmuir, 10, 1994, DOI:10.1021/la00024a025, 4534-4541. ISI IF:3.23
Цитира се в:
114. P. Concepcion, M. Boronat, R. Millán, M. Moliner and A. Corma, Identification of Distinct Copper Species in Cu-CHA Samples Using NO as Probe Molecule. A Combined IR Spectroscopic and DFT Study, Top. Catal., 60(2017) 1653 [ISI]., 2017 Линк
1995
53. Valtchev V., Mintova S., Dimov V., Toneva A., Radev D.. Tribochemical activation of seeds for rapid crystallization of zeolite Y. Zeolites, 1995, DOI:10.1016/0144-2449(94)00058-Z, 193-197. ISI IF:1.992
Цитира се в:
115. Prabir Dutta, Michael Severance, Chenhu Sun, "Methods for synthesizing microporous crystals and microporous crystal membranes" US 9561477 B2, 2017 Линк
116. T. Fukasawa et al./ Synthesis of zeolite from coal fly ash by microwave hydrothermal treatment with pulverization processAdvanced Powder Technology Volume 28, Issue 3, March 2017, Pages 798–804, 2017 Линк
117. Xinhong Zhao, Xiangping Gao, Xiaoxiao Zhang, Zhixin Hao; Solventless synthesis of AEL-type aluminophosphate molecular sieve from mechanochemically pretreated low-templated reactants; Microporous and Mesoporous Materials, 242 (2017) 160-165., 2017 Линк
54. Hadjiivanov, K., Klissurski, D., Bushev, V.. IR spectroscopic study of NO2 adsorption on chromia. Journal of the Chemical Society, Faraday Transactions, 91, 1995, DOI:10.1039/FT9959100149, 149-153. ISI IF:1.757
Цитира се в:
118. A. Wang, Y. Guo, F. Gao and C.H.F. Peden, Ambient-temperature NO oxidation over amorphous CrOx-ZrO2 mixed oxide catalysts: Significant promoting effect of ZrO2, Appl. Catal. B, 202 (2017) 706 [ISI]., 2017 Линк
55. Panayotov, D., Dimitrov; L., Khristova; M., Petrov; L., Mehandjiev; D.. Reduction of nitric oxide with carbon monoxide on the surface of copper-containing catalysts based on aluminophosphates, silicoaluminosulphates and ZSM-5 zeolite. Applied Catalysis B, Environmental, 6, 1, Elsevier Science B.V., 1995, ISSN:0926-3373, 61-78. ISI IF:7.435
Цитира се в:
119. Xingxing Cheng, Xingyu Zhang, Ming Zhang, Peiliang Sun, Zhiqiang Wang, Chunyuan Ma, A simulated rotary reactor for NOx reduction by carbon monoxide over Fe/ZSM-5 catalysts, (2017) In Chemical Engineering Journal, 307, pp. 24-40, 2017 Линк
120. Cheng, X.; Zhang, X.; Zhang, M.; Sun, P.; Wang, Z.; Ma, C., A simulated rotary reactor for NOx reduction by carbon monoxide over Fe/ZSM-5 catalysts, Chemical Engineering
page 15/232
Journal 2017, 307, 24, http://dx.doi.org/10.1016/j.cej.2016.08.076, 2017 Линк
56. Naydenov, A., Stoyanova, R., Mehandjiev, D.. Ozone decomposition and CO oxidation on CeO2. Journal of Molecular Catalysis A: Chemical, 98, 1, Elsevier, 1995, DOI:10.1016/1381-1169(94)00060-3, 9-14. ISI IF:3.62
Цитира се в:
121. Liu, Y., & Zhang, P. (2017). Removing Surface Hydroxyl Groups of Ce-Modified MnO2 To Significantly Improve Its Stability for Gaseous Ozone Decomposition. The Journal of Physical Chemistry C, 121(42), 23488-23497., 2017 Линк
122. Ramakrishna, C., Shekar, S. C., Gupta, A. K., Saini, B., Krishna, R., Swetha, G., & Gopi, T. (2017). Degradation of diethyl sulfide vapors with manganese oxide catalysts supported on zeolite-13X: The influence of process parameters and mechanism in presence of ozone. Journal of Environmental Chemical Engineering, 5(2), 1484-1493., 2017 Линк
1996
57. Vassileva, E., Varimezova , B., Hadjiivanov, K.. Column solid-phase extraction of heavy metal ions on a high surface area CeO2 as a preconcentration method for trace determination. Analytica Chimica Acta, 336, 1996, DOI:10.1016/S0003-2670(96)00336-4, 141-150. ISI IF:4.5
Цитира се в:
123. A. Anjum, Enhancing Cleanup of Environmental Pollutants, in Environmental Chemistry for a Sustainable World, Vol. 2, Springer, 2017, p. 25, 2017 Линк
124. J. Zhai, Ionophore-based complexometric titration, Ph. D. Thesis, Univ. Genève, Genève, Switzerland, 2017 [GS]., 2017 Линк
58. Hadjiivanov, K., Kantcheva, M., Klissurski, D.. IR study of CO adsorption on Cu-ZSM-5 and CuO/SiO2 catalysts: σ and π components of the Cu+—CO bond. Journal of the Chemical Society, Faraday Transactions, 92, 1996, DOI:10.1039/FT9969204595, 4595-4600. ISI IF:1.757
Цитира се в:
125. H. Shang, X. Zhang, J. Xu and Y. Han, Effects of preparation methods on the activity of CuO/CeO2 catalysts for CO oxidation, Front. Chem. Sci. Eng., 11(4) (2017) 603-612, https://doi.org/10.1007/s11705-017-1661-z, 2017 Линк
126. X. Wang, A.A. Arvidsson, M.O. Cichocka, X. Zou, N.M. Martin, J. Nilsson, S. Carlson, J. Gustafson, M. Skoglundh, A. Hellman and P.-A. Carlsson, Methanol Desorption from Cu-ZSM-5 Studied by In Situ Infrared Spectroscopy and First-Principles Calculations, J. Phys. Chem. C, 121(49) (2017) 27389-27398, , 2017 Линк
127. L.W. Qiang, S. Shanmugan and M. Devarajan, EVALUATION ON THE THERMAL AND STRUCTURAL PROPERTIES OF COPPER ALUMINUM OXIDE (Cu-Al2O3) THIN FILM ON AL SUBSTRATE: EFFECT OF ANNEALING TEMPERATURE, Surf. Rev. Lett., (2017) doi.org/10.1142/S0218625X19500173, 2017 Линк
128. J. Schittkowski, Kinetic and calorimetric studies of structure-activity correlations in copper-based hydrogenation catalysts, Ph. D. Thesis, Ruhr–Universität Bochum, Bochum, Germany, 2017 [GS]., 2017 Линк
129. H. Xie, D. Yi, L. Shi and X. Meng, High Performance of CuY Zeolite for Catalyzing Acetylene Carbonylation and the Effect of Copper Valence States on Catalyst, Chem. Eng. J., 313 (2017) 663, 2017
59. Sole, R., Nikolov, V., Ruiz, X., Gavalda, I., Solans, X., Aguilo, M., Diaz, F.. Growth of β-KGd1-x Ndx
page 16/232
(WO4)2 single crystals in K2W2O7 solvents. Journal of Crystal Growth, 169, 3, Elsevier, 1996, ISSN:00220248, DOI:10.1016/S0022-0248(96)00674-4, 600-6003. SJR:0.735, ISI IF:1.571
Цитира се в:
130. Pollnau, Markus. "Rare-Earth-Doped Waveguide Amplifiers and Lasers." Handbook on the Physics and Chemistry of Rare Earths (2017)., 2017 Линк
60. Zhecheva, E., Stoyanova, R., Gorova, M., Alcantara, R., Morales, J., Tirado, J. L.. Lithium-Cobalt Citrate Precursors in the Preparation of Intercalation Electrode Materials. Chemistry of Materials, 8, 7, 1996, ISSN:0897-4756, 1429-1440. ISI IF:8.354
Цитира се в:
131. Santana, I. L., Moreira, T. F. M., Lelis, M. F. F., & Freitas, M. B. J. G. (2017). Photocatalytic properties of Co 3 O 4/LiCoO 2 recycled from spent lithium-ion batteries using citric acid as leaching agent. Materials Chemistry and Physics, Volume 190, Pages 38-44., 2017 Линк
61. Radev D. D., Marinov M.. Properties of Diborides of Titanium and Zirconium Obtained by Self Propagated High-Temperature Synthesis. Journal of Alloys and Compounds, 244, 1-2, 1996, ISSN:0925-8388, DOI:10.1016/S0925-8388(96)02406-1, 48-51. ISI IF:2.999
Цитира се в:
132. Ke Bao, Yan Men et al. Low-temperature preparation of titanium diboride fine powder via magnesiothermic reduction in molten salt, J Am. Ceram. Soc. 7 March, 2017, Vol. 100 Issue 5, p2266, 7 p., 2017 Линк
133. Meltem İpekçia, Selçuk Acarb, Mustafa Elmadağlıc, Jürgen Hennicked, Özge Balcıa, Mehmet Somer; Production of TiB2 by SHS and HCl leaching at different temperatures: Characterization and investigation of sintering behavior by SPS; Ceramics International;Volume 43, Issue 2, 1 February 2017, Pages 2039–2045, 2017 Линк
134. Krishnarao, R. V. "Preparation of ZrB 2 and ZrB 2-SiC powders in a single step reduction of zircon (ZrSiO 4) with B 4 C." Ceramics International 43.1 (2017): 1205-1209., 2017 Линк
135. S. Sahoo , S.K. Singh, Synthesis of TiB2 by extended arc thermal plasma, Ceramics International, 43(17) (2017) 15561-15566., 2017 Линк
136. R. V. KRISHNARAO et al., "ZrB2–SiC based composites for thermal protection by reaction sintering of ZrO2+B4C+Si", Journal of Advanced Ceramics, 2017, 6(4): 320–329, 2017 Линк
137. R. V. KRISHNARAO, R. SANKARASUBRAMANIAN, Thermite assisted synthesis of ZrB 2 and ZrB 2 –SiC through B 4 C reduction of ZrO 2 and ZrSiO 4 in air Journal of Advanced Ceramics 2017, 6 (2): 139–148, 2017 Линк
62. Mehandjiev D., Khristova M., Bekyarova E.. Conversion of NO on Co-impregnated active carbon catalysts. Carbon, 34, 6, 1996, DOI:10.1016/0008-6223(96)00015-2, 757-762. ISI IF:6.198
Цитира се в:
138. Wang, L., Wang, Z., Cheng, X., Zhang, M., Qin, Y., Ma, C. In situ DRIFTS study of the NO + CO reaction on Fe-Co binary metal oxides over activated semi-coke supports (2017) RSC Advances, 7 (13), pp. 7695-7710., 2017
139. L Wang, X Cheng, Z Wang, C Ma, Y Qin. Investigation on Fe-Co binary metal oxides supported on activated semi-coke for NO reduction by CO. (2017) Applied Catalysis B: Environmental, 201, pp. 636-651, 2017 Линк
140. Wang, L., Cheng, X., Wang, Z., Zhang, X., Ma, C. NO reduction by CO over iron-based catalysts supported by activated semi-coke (2017) Canadian Journal of Chemical Engineering, 95 (3), pp. 449-458., 2017
page 17/232
63. Vassileva, E., Proinova, I., Hadjiivanov, K.. Solid-phase extraction of heavy metal ions on a high surface area titanium dioxide (anatase). Analyst, 121, 1996, DOI:10.1039/AN9962100607, 607-612. ISI IF:4
Цитира се в:
141. M. Krawczyk-Coda and E. Stanisz, Determination of fluorine in herbs and water samples by molecular absorption spectrometry after preconcentration on nano-TiO2 using ultrasound-assisted dispersive micro solid phase extraction, Anal. Bioanal. Chem., 409(2017) 6439[ISI]., 2017 Линк
142. N. Dalali, M. Kazeraninejad and A. Akhavan, Removal of heavy metal ions from wastewater samples using electron beam radiation in the presence of TiO, Desalination Water Treat., 71 (2017) 136 [ISI]., 2017 Линк
143. Y. Shu, R. Huang, X. Wei, L. Liu and Z. Jia, Pb (II) Removal Using TiO2-Embedded Monolith Composite Cryogel as an Alternative Wastewater Treatment Method, Water Air & Soil Pollut., 228 (2017) 375 [ISI]., 2017 Линк
144. V. Rudnev, V. Morozova, I. Lukiyanchuk, I. Tkachenko, M. Adigamova and P. Nedozorov, Protect Metals Phys. Chem. Surf., 53 (2017) 606 [ISI]., 2017
145. S.Z. Chen, J.J. Yan, J.F. Li, D.B. Lu, Study on Titanium Dioxide: Nanofibers as New Solid Phase Extraction Adsorbent for Column Preconcentration and Separation of Trace Rare Earth Elements Prior to their Determination by ICP-MS, At. Spectrosc., 38 (2017) 86 [ISI]., 2017 Линк
64. Stefanov, P.. XPS study of surface segregation in Ni-Mg alloy films. Vacuum,, 47, 9, Elsevier Ltd, 1996, ISSN:0042207X, DOI:10.1016/0042-207X(96)00131-5, 1107-1110. ISI IF:2.067
Цитира се в:
146. Nowak, M., Jurczyk, M. Mg-3d-based hydrogen storage alloys (2017) Handbook of Nanomaterials for Hydrogen Storage, pp. 227-260., 2017 Линк
65. Spassova I, Mehandjiev D. Effect of thermal treatment on the activity of mixed copper-manganese oxide. React. Kinet. Catal. Lett., 58, 1996, 57-63. ISI IF:1.264
Цитира се в:
147. Decyk, P., Wieckowski, A. B., Najder-Kozdrowska, L., Bilkova, I., & Ziołek, M. (2017). EPR Study of Dealuminated HY Zeolite and Silica Containing Cu-Mn-Zn Spinels: The Effect of Support. Acta Physica Polonica, A., 132(1) (2017) 38-43., 2017 Линк
66. Hadjiivanov, K., Klissurski, D., Ramis , G., Busca, G.. Fourier transform IR study of NOx adsorption on a CuZSM-5 DeNOx catalyst. Applied Catalysis B: Environmental, B7, 1996, DOI:10.1016/0926-3373(95)00034-8, 251-267. ISI IF:7.4
Цитира се в:
148. M. Compagnoni, Catalytic and photocatalytic processes for the production of alternative fuels and chemicals from renewable sources, Ph. D. Thesis, Università degli Studi di Milano, Milano, Italy, 2017 [Google]., 2017
149. H. Niu, K. Li, B. Chu, W. Su and J. Li, Heterogeneous Reactions between Toluene and NO2 on Mineral Particles under Simulated Atmospheric Conditions, Environ. Sci. Technol., 51 (2017) 9596 [ISI]., 2017 Линк
150. K. Tan, S. Zuluaga, H. Wang, P. Canepa, K. Soliman, J. Cure, J. Li, T. Thonhauser and Y.J. Chabal, Interaction of Acid Gases SO2 and NO2 with Coordinatively Unsaturated Metal Organic Frameworks: M-MOF-74 (M = Zn, Mg, Ni, Co), Chem. Mater., 29 (2017) 4227 [ISI]., 2017 Линк
page 18/232
67. Hadjiivanov, K., Klissurski, D.. Surface chemistry of titania (anatase) and titania-supported catalysts. Chemical Society Reviews, 25, 1996, DOI:10.1039/CS9962500061, 61-69. ISI IF:33.383
Цитира се в:
151. Y. Ni, Z. Chen, F. Kong, Y. Qiao, A. Kong and Y. Shan, Space-confined synthesis of multilayer Cu–N-doped graphene nanosheets for efficient oxygen electroreduction, Dalton Trans., 46 (2017) 8586-8592., 2017 Линк
152. S. Sheng, J. Fu, B.M. Wong and J. Wu, Solvation Structure of Surface-Supported Amine Fragments: A Molecular Dynamics Study, J. Phys. Chem. C, 121 (2017) 22156-22163., 2017 Линк
153. M. Stiller, J. Barzola-Quiqui, P. Esquinazi, S. So, I. Hwang, P. Schmuki, J. Böttner, I. Estrela-Lopis, Electrical transport properties of polycrystalline and amorphous TiO2 single nanotubes, Nano-Struct. Nano-Objects, 10 (2017) 51-56., 2017 Линк
154. T. Tran-Thuy, C. Chen and S.D. Lin, Spectroscopic Studies of How Moisture Enhances CO Oxidation over Au/BN at Ambient Temperature, ACS Catal., 7 (2017) 4304-4312., 2017 Линк
155. U. Tumuluri, J.D. Howe, W.P. Mounfield III, M. Li, M. Chi, Z.D. Hood, K.S. Walton, D.S. Sholl, S. Dai and Z. Wu, Effect of Surface Structure of TiO2 Nanoparticles on CO2 Adsorption and SO2 Resistance, ACS Sustainable Chem. Eng., 5 (2017) 9295-9306., 2017 Линк
156. Z. Wang, K. Wang, X. Peng, Q. Geng, X. Chen, W. Dai, X. Fu, X. Wang, Comparative study of ultraviolet light and visible light on the photo-assisted conductivity and gas sensing property of TiO2, Sensors Actuators B, 248 (2017) 724-732., 2017 Линк
157. X. P. Wu, A Review - The Properties and Applications of Nano-Structured Titanium Oxide Materials, Key Eng. Mater., 727 (2017) 314-321., 2017 Линк
158. Y. Xia, Y. Jia, W. Qian, X. Xu, Z. Wu, Z. Han, Y. Hong, H. You, M. Ismail, G. Bai and L. Wang, Pyroelectrically Induced Pyro-Electro-Chemical Catalytic Activity of BaTiO3 Nanofibers under Room-Temperature Cold–Hot Cycle Excitations, Metals, 7 (2017) 122., 2017 Линк
159. W. Zhao, Y. Wu, T. Cai, W. Zhang, X. Chen and D. Liu, Density functional theory and reactive dynamics study of catalytic performance of TiO2 on CO2 desorption process with KHCO3/TiO2/Al2O3 sorbent, Mol. Catal., 439 (2017) 143-154., 2017 Линк
160. M. Klementová, M. Motlochova, J. Boháček, J. Kupčík, L. Palatinus, E. Pližingrová, L. Szatmary and J. Subrt, Metatitanic Acid Pseudomorphs after Titanyl Sulfates: Nanostructured Sorbents and Precursors for Crystalline Titania with Desired Particle Size and Shape, Cryst. Growth Des., 17 (2017) 6762-6769., 2017 Линк
161. Y. Bennani, Photoelectrocatalysis in Water Treatment, Ph. D. Thesis, Technische Universtiteit Delft, Delft, The Netherlands, 2017, 2017 Линк
162. P. Cheng, Optimization and Investigation of SO2 Adsorption Process for Solid Oxide Fuel Cell Cathode Protection, Ph. D. Thesis, Auburn University, Auburn, USA, 2017, 2017
163. M. Devi, Studies on the Microstructure, Optical and Electrical Properties of Some Metal Modified TiO2 Based Thin Films, Ph. D. Thesis, Kiit University, Bhubaneswar, India, 2017, 2017
164. P. Schlexer, Nanostructures in Catalysis - Support Effects on Metal Clusters and Oxide Thin Films, Ph. D. Thesis, Università degli Studi di Milano, Milano, Italy, 2017, 2017
165. D.T. Payne, Photoexcitation at Titania Surfaces, Ph. D. Thesis, University College London, London, UK, 2017, 2017 Линк
166. K. Siwińska-Stefańska and T. Jesionowski, Advanced Hybrid Materials Based on Titanium Dioxide for Environmental and Electrochemical Applications, Titanium Dioxide, InTech
page 19/232
Open Sci., 2017, p. 143, 2017 Линк
167. M. Boronat and P. Concepcion, Combined theoretical and spectroscopic mechanistic studies for improving activity and selectivity in heterogeneous catalysis, Catal. Today, 285 (2017) 166-178., 2017 Линк
168. G.S. Foo, G. Hu, Z.D. Hood, M. Li, D. Jiang and Z. Wu, Kinetics and Mechanism of Methanol Conversion over Anatase Titania Nanoshapes, ACS Catal., 7 (2017) 5345-5356., 2017 Линк
169. V.K. Guda and H. Toghiani, Catalytic pyrolysis of pinewood using metal oxide catalysts in an integrated reactor system, Biofuels, 8 (2017) 527-536., 2017 Линк
170. X. Kong, Y.W. Hu and W. Pan, Effect of Reaction Time on the Morphology and Photocatalytic Property of ZnO Nanoparticles, Key Eng. Mater., 726 (2017) 365-369., 2017 Линк
171. L. Mino, IR spectroscopy as a tool to investigate photocatalytic reactions at oxide surfaces, Rend. Fis. Acc. Lincei, 28 (2017) 143-149., 2017 Линк
172. I. Naboulsi, B. Lebeau, L. Michelin, C. Carteret, L. Vidal, M. Bonne and J.-L. Blin, Insights into the Formation and Properties of Templated Dual Mesoporous Titania with Enhanced Photocatalytic Activity, Appl. Mater. Interfaces, 9 (2017) 3113-3122., 2017 Линк
173. M. Popovici, B. Groven, K. Marcoen, Q.M. Phung, S. Dutta, J. Swerts, J. Meersschaut, J.A. Van Den Berg, A. Franquet, A. Moussa, K. Vanstreels, P. Lagrain, H. Bender, M. Jurczak, S. Van Elshocht, A. Delabie and C. Adelmann, Atomic Layer Deposition of Ruthenium Thin Films from (Ethylbenzyl) (1-Ethyl-1, 4-cyclohexadienyl) Ru: Process Characteristics, Surface Chemistry, and Film Properties, Chem. Mater., 29 (2017) 4654-4666., 2017 Линк
174. A.G. Povimonsky and H. Rapaport, Peptide coating applied on the spot improves osseointegration of titanium implants, J. Mater. Chem. B, 5 (2017) 2096-2105., 2017 Линк
175. L.P. Rivoira, M.L. Martínez, H. Falcon, A.R. Beltramone, J.M. Campos-Martin, J.L.G. Fierro and P. Tartaj, Probing the Catalytic Activity of Sulfate-Derived Pristine and Post-Treated Porous TiO2(101) Anatase Mesocrystals by the Oxidative Desulfurization of Dibenzothiophenes, ACS Omega, 2 (2017) 2351-2359., 2017 Линк
176. Y. Peng, Y. Zhang, F. Tian, J. Zhang and J. Yu, Structure Tuning of Bi2MoO6 and Their Enhanced Visible Light Photocatalytic Performances, Crit. Rev. Solid State Mater. Sci., 42 (2017) 347., 2017 Линк
177. C. Liu, Q. Ma, H. He, G. He, J. Ma, Y. Liu and Y. Wu, Structure–activity relationship of surface hydroxyl groups during NO2 adsorption and transformation on TiO2 nanoparticles, Environ. Sci. Nano, 4 (2017) 2388 [ISI]., 2017 Линк
178. S. Sheng, Applications of Molecular Theory in Solvation of Pharmaceutical Solutes, Ions and Amine-Grafted Silica Gel, Ph. D. Thesis, University of California, USA, 2017, 2017 Линк
179. T. Tran-Thuy, Influences of moisture on room temperature co oxidation over Au/BN catalysts, Ph. D. Thesis, National Taiwan University of Science and Technology, Taipei, Taiwan, 2017., 2017 Линк
180. Н. Сагатов, Ф. Абуова и А. Абуова, Термодинамика и динамика решетки двух модификаций TiO2 рутила и анатаза, Вестник ЕНУ им. Л. Гумилева (Казахстан), 119 (2017) 156. [Google]., 2017 Линк
181. S. Grosso, Architectured Ti-based coatings grown by PVD on moving stainless steel wires : relationship between chemical composition, microstructure and properties, Ph. D. Thesis, Communauté Université Grenoble Alpes, Grenoble, France, 2017., 2017
182. M. Stiller, J. Barzola-Quiquia, P. Esquinazi, S. So, I. Hwang, P. Schmuki, J. Böttner and I. Estrela-Lopis, Fabrication and electrical transport properties of embedded graphite microwires in a diamond matrix, Cond. Matter., arXiv:1702.07586, 2017 [GS]., 2017 Линк
183. I. Naboulsi, Synthèse et caractérisation d’oxyde de titane et de zirconium mésoporeux:
page 20/232
applications en catalyse, Ph. D. Thesis, Université de Lorraine, Nancy, France, 2017., 2017
184. A. Marberger, Advances in Vanadium-Based Catalyst Research for the Selective Catalytic Reduction of NOx by NH3, Ph. D. Thesis, École Polytechnique Fédérale de Lausanne, Lausanne, Switzerland, 2017., 2017
185. Y. Lan, R. Derbeshi and A. Lisfi, in Titanium Dioxide Nanoparticles: Characterizations, Properties and Syntheses (Y. Lan, L. Cook and A. Lisfi, Eds.), Nova Sci. Publ., New York, USA, 2017, p. 1., 2017 Линк
186. U. Afrin, M.R. Mian, B.K. Breedlove and M.M. Hossain, Enhanced Photocatalytic Activity of an Acid-modified TiO2 Surface for Degradation of the Azo Dye Remazol Red, Chem. Select, 2 (2017) 10371-10374., 2017 Линк
187. A. Junkaew, P. Maitarad, R. Arrόyave, N. Kungwan, D. Zhang, L. Shi and S. Namuangruk, The complete reaction mechanism of H2S desulfurization on an anatase TiO2 (001) surface: a density functional theory investigation, Catal. Sci. Technol., 7 (2017) 356-365., 2017 Линк
68. Klissurski, D., Petridis, D., Abadzhieva, N., Hadjiivanov, K.. MoO3 supported on montmorillonite type pillared clays: Characterization, surface acidity and catalytic properties towards the oxidation of methanol. Applied Clay Science, 10, 1996, DOI:10.1016/0169-1317(95)00044-5, 451-459. ISI IF:2.4
Цитира се в:
188. J. Arfaoui, A. Ghorbel, C. Petitto and G. Delahay, Novel Vanadium supported onto mixed Molybdenum-Titanium Pillared Clay catalysts for the low temperature SCR-NO by NH3, Chem. Eng. J., (2017)DOI: 10.1016/j.cej.2017.02.046, 2017 Линк
189. Z. Jia, X. Wang, F. Thevenet and A. Rousseau, Dynamic probing of plasma-catalytic surface processes: Oxidation of toluene on CeO2, Plasma Process Polym., 14 (2017) e201600114, 2017 Линк
69. Iordanova, R., Dimitriev, Y., Dimitrov, V., Kassabov, S., Klissurski, D.. Glass formation and structure in the V2O5-Bi2O3-Fe2O3 glasses. Journal of Non-Crystalline Solids, 204, Elsevier, 1996, ISSN:00223093, DOI:10.1016/S0022-3093(96)00416-4, 141-150. SJR:0.753, ISI IF:1.766
Цитира се в:
190. Astuti, Y., et al. "Studying Impact of Different Precipitating Agents on Crystal Structure, Morphology and Photocatalytic Activity of Bismuth Oxide" (2017) Bulletin of Chemical Reaction Engineering & Catalysis, 12(3), pp.478-484., 2017 Линк
191. Jeong, H. J., Cha, J. M., & Ryu, B. K. " Study on the Electrical Conductivity and Catalytic Property by Structural Change of 70V2O5-10Fe2O3-13P2O5-7B2O3 Glass with Crystallization" (2017) Journal of the Korean Ceramic Society, 54(5), 406-412., 2017 Линк
192. Lü, M., Jo, H., Oh, S.-J., Lee, S., Choi, K.-Y., Yu, Y., Ok, K.M. "Syntheses, Structures, and Characterization of Quaternary Tellurites, Li3MTe4O11(M = Al, Ga, and Fe)" (2017) Inorganic Chemistry, 56 (10), pp. 5873-5879, 2017 Линк
193. Suresh, B., Purnachand, N., Zhydachevskii, Y., Brik, M.G., Reddy, M.S., Suchocki, A., Piasecki, M., Veeraiah, N. "Influence of Bi3+ions on the amplification of 1.3 μm emission of Pr3+ions in lead silicate glasses for the applications in second telecom window communications" (2017) Journal of Luminescence, 182, pp. 312-322., 2017 Линк
194. Hanif, F., Aamir, M., NaeemAshiq, M., Yasmeen, G., Manzoor, S., Ijaz, S., Ansari, T.M., Abbas, S., Yousaf, A.B. Photoenhanced degradation of methylene blue on polyaniline engineered multiferroics (BiAl0.3Mn0.3Fe0.4O3) nanocomposite systems: A comprehensive study (2017) Desalination and Water Treatment, 95, pp. 286-294, 2017 Линк
195. Rao, M.V. S., Kumar. A.S., Ram G.Ch., Tirupataiah, Ch., Rao, D.K. "Assessment of role of
page 21/232
iron ions on the physical and spectroscopic properties of multi-component Na2O− PbO− Bi2O3− SiO2 glass ceramics." (2017) Phase Transitions 91, 92-107, 2017 Линк
196. Marzouk, M. A., El-Kheshen, A. A. , Sayed Ahmed, S. A., Aboelenin R. M. M., "Spectroscopic Studies on Nano-Single Crystal BiVO4 Glass Ceramic as Dye Degradation for Wastewater Purification." (2017) Silicon, pp 1–9, 2017 Линк
1997
70. Stambolova, I., Konstantinov, K., Kovacheva, D., Khristov, M., Peshev, P., Donchev, T. Spray pyrolysis deposition of polycrystalline magnesia films and their use as buffer layers in Bi(Pb)-Sr-Ca-Cu-O/MgO/Al2O3 (or glass ceramics) structures. Materials Letters, 30, 5-6, 1997, 333-337. ISI IF:2.437
Цитира се в:
197. Premkumar, V. K., et al. "Facile hydrothermally synthesized mesoporous manganous stannate (Mn2SnO4) nanoparticles and its electrochemical properties." Materials Research Express 4.12 (2017): 125010., 2017 Линк
198. Saeedabad, S. Hemmatzadeh, et al. "Gas sensing applications of the inverse spinel zinc tin oxide." Materials Science in Semiconductor Processing 71 (2017): 461-469., 2017 Линк
199. Aldossary, Minahi S., et al. "A family of microscale 2× 2× 2 Pocket Cubes." CrystEngComm 19.36 (2017): 5422-5431., 2017 Линк
200. Salohub, A. O., et al. "Determination of fundamental optical constants of Zn 2 SnO 4 films." Semiconductor Physics, Quantum Electronics & Optoelectronics 20 (1) (2017) 79-84., 2017 Линк
201. Huang, Xiao-Juan, et al. "Inverted polymer solar cells with Zn 2 SnO 4 nanoparticles as the electron extraction layer." Chinese Chemical Letters 28(8) (2017) 1755-1759., 2017 Линк
202. Hedayat, Hamoon, et al. "Nanostructure evolution of zinc stannate: A suitable material for liquefied petroleum gas detection." Journal of Alloys and Compounds 704 (2017): 413-419., 2017 Линк
203. Niang, Kham M., et al. "Zinc tin oxide thin film transistors produced by a high rate reactive sputtering: Effect of tin composition and annealing temperatures." physica status solidi (a) 214 (2) (2017) 1600470 ., 2017 Линк
71. Alcantara, R., Lavela, P., Tirado, J. L., Stoyanova, E., Kuzmanova, E., Zhecheva, E.. Lithium-Nickel Citrate Precursors for the Preparation of LiNiO2 Insertion Electrodes. Chemistry of Materials, 9, 10, 1997, ISSN:0897-4756, 2145-2155. ISI IF:8.354
Цитира се в:
204. Omari, E., Makhloufi, S., & Omari, M. (2017). Preparation by Sol–Gel Method and Characterization of Co-doped LaNiO3 Perovskite. Journal of Inorganic and Organometallic Polymers and Materials, 27(5), 1466-1472., 2017 Линк
72. Kostov, K.L., Gsell, M., Jakob, P., Moritz, T., Widdra, W., Menzel, D.. Observation of a novel high density 3O(2x2) structure on Ru(001). Surface Science, 394, 1-3, Elsevier, 1997, DOI:10.1016/S0039-6028(97)00787-5, L138-L144. ISI IF:1.925
Цитира се в:
205. N. Michalak, Z. Miłosz, G. Peschel, M. Prieto, F. Xiong, P. Wojciechowski, T. Schmidt, M. Lewandowski, Symmetry-Induced Structuring of Ultrathin FeO and Fe3O4 Films on Pt(111) and Ru(0001), Nanomaterials 2018, 8(9), 719, 2017
206. Wang, M., Zhong, J.Q., Kestell, J., Waluyo, I., Stacchiola, D.J., Boscoboinik, J.A. and Lu, D., 2017. Energy level shifts at the silica/Ru (0001) heterojunction driven by surface and
page 22/232
interface dipoles. Topics in Catalysis, 60(6-7), pp.481-491., 2017
73. Braun, J., Kostov, K.L, Witte, G, Surnev, L., Skofronick, J.G., Safron, S.A., Wöll, Ch.. Surface phonon dispersion curves for a hexagonally close packed metal surface: Ru(0001). Surface Science, 372, 1-3, Elsevier, 1997, ISSN:00396028, DOI:10.1016/S0039-6028(96)01108-9, 132-144. SJR:0.768, ISI IF:1.925
Цитира се в:
207. Shakouri, K., Behler, J., Meyer, J. and Kroes, G.J., Accurate Neural Network Description of Surface Phonons in Reactive Gas-Surface Dynamics: N2+ Ru (0001). The Journal of Physical Chemistry Letters 8 (10), pp 2131–2136, 2017., 2017 Линк
74. Alcantara, R., Lavela, P., Tirado, J. L., Stoyanova, R., Zhecheva, E.. Structure and Electrochemical Properties of Boron-Doped LiCoO2. Journal of Solid State Chemistry, 134, 2, 1997, ISSN:0022-4596, 265-273. ISI IF:2.133
Цитира се в:
208. Etacheri, V. (2017). Sol-Gel Processed Cathode Materials for Lithium-Ion Batteries. In Sol-Gel Materials for Energy, Environment and Electronic Applications (pp. 155-195). Springer International Publishing., 2017 Линк
209. Li, B., Yan, H., Zuo, Y., & Xia, D. (2017). Tuning the Reversibility of Oxygen Redox in Lithium-Rich Layered Oxides. Chemistry of Materials, 29(7), 2811-2818., 2017 Линк
210. Hu Guorong, Tan Chao, Pu Duke, Pengzhong Dong, Caoyan Bing, Liang Longwei, Wang Weigang, Preparation of LiNi_ (0.85) Co_ (0.06) Mn_ (0.06) Al_ (0.03) O_2, "Chinese Journal of Inorganic Chemistry" (08) 2017., 2017 Линк
211. Li, B., & Xia, D. (2017). Anionic Redox in Rechargeable Lithium Batteries. Advanced Materials, Volume 29, Issue 48, 1701054., 2017 Линк
75. Djonev, B., Tsyntsarski, B., Klissurski, D., Hadjiivanov, K.. IR spectroscopic study of NOxadsorption and NOx - O2coadsorption on Co2+/SiO2catalysts. Journal of the Chemical Society, Faraday Transactions, 93, 1997, DOI:10.1039/A703955G, 4055-4063. ISI IF:1.708
Цитира се в:
212. A. Bellmann, Mechanistische Untersuchungen der selektiven katalytischen Reduktion (SCR) von Stickoxiden mit Methan an Co-ZSM-5-Katalysatoren, Ph. D. Thesis, Universität Rostock, Rostock, Germany, 2017 [GS]., 2017
213. F. Li, J. Xie, D. Fang, F. He, K. Qi and P. Gong, Mechanistic study of Ce-modified MnOx/TiO2 catalysts with high NH3-SCR performance and SO2 resistance at low temperatures, Res. Chem. Intermed., 40 (2017)5413 [ISI]., 2017 Линк
214. K. Tan, S. Zuluaga, H. Wang, P. Canepa, K. Soliman, J. Cure, J. Li, T. Thonhauser and Y.J. Chabal, Interaction of Acid Gases SO2 and NO2 with Coordinatively Unsaturated Metal Organic Frameworks: M-MOF-74 (M = Zn, Mg, Ni, Co), Chem. Mater., 29 (2017) 4227 [ISI]., 2017 Линк
76. Kostov, K.L., Jakob, P., Menzel, D.. A new high density COoxygen coadsorbate layer on Pt (111) and its role in CO oxidation. Surface Science, 377-379, 1, Elsevier, 1997, DOI:10.1016/S0039-6028(96)01508-7, 802-807. ISI IF:1.925
Цитира се в:
215. Papp, C., From Flat Surfaces to Nanoparticles: In Situ Studies of the Reactivity of Model Catalysts, Catal Lett (2016) pp. 2-19., 2017 Линк
216. Liu, Y., Yang, F., Ning, Y., Liu, Q., Zhang, Y., Chen, H. and Bao, X., CO adsorption on a Pt (111) surface partially covered with FeOx nanostructures, Journal of Energy Chemistry,
page 23/232
Volume 26, Issue 4, July 2017, Pages 602-607., 2017 Линк
77. Hadjiivanov, K., Lamotte, J., Lavalley, J.-C.. FTIR Study of Low-Temperature CO Adsorption on Pure and Ammonia-Precovered TiO2 (Anatase). Langmuir, 13, 1997, DOI:10.1021/la962104m, 3374-3381. ISI IF:2.85
Цитира се в:
217. Z. Buniazet, J. Couble, D. Bianchi, M. Rivallan, A. Cabiac, S. Maury and S. Loridant, Unravelling water effects on solid acid catalysts: Case study of TiO2/SiO2 as a catalyst for the dehydration of isobutanol, J. Catal., 348 (2017) 125-134, 2017 Линк
218. L. Lin, K. Wang, K. Yang, X. Chen, X. Fu and W. Dai, The visible-light-assisted thermocatalytic methanation of CO 2 over Ru/TiO (2-x) N x, Appl. Catal. B, 204 (2017) 440 [ISI]., 2017 Линк
219. G. Kučerová, J. Strunk, M. Muhler and R.J. Behm, Effect of titania surface modification of mesoporous silica SBA-15 supported Au catalysts: Activity and stability in the CO oxidation reaction, J. Catal., 356 (2017) 214-228, 2017 Линк
220. N.F. Jaafar, A.A. Jalil and S. Triwahyono, Visible-light photoactivity of plasmonic silver supported on mesoporous TiO2 nanoparticles (Ag-MTN) for enhanced degradation of 2-chlorophenol: Limitation of Ag-Ti interaction, Appl. Surf. Sci., 392 (2017) 1068 [ISI]., 2017 Линк
221. S.B. Patel, N. Baker, I. Marques, A. Hamlekhan, M.T. Mathew, C. Takoudis, C. Friedrich, C. Sukotjo and T. Shokuhfar, Transparent TiO2 nanotubes on zirconia for biomedical applications, RSC Adv., 7 (2017) 30397-30410, 2017 Линк
222. A. Pougin, A. Lüken, C. Klinkhammer, D. Hiltrop, M. Kauer, K. Tölle, M. Havenith-Newen, K. Morgenstern, W. Grünert, M. Muhler and J. Strunk, Probing Oxide Reduction and Phase Transformations at the Au-TiO2 Interface by Vibrational Spectroscopy, Top. Catal., 60(2017) 1744-1753, 2017 Линк
223. Y. Shiraishi, N. Yasumoto, J. Imai, H. Sakamoto, S. Tanaka, S. Ichikawa, B. Ohtani and T. Hirai, Quantum tunneling injection of hot electrons in Au/TiO2 plasmonic photocatalysts, Nanoscale, 9 (2017) 8349-8361, 2017 Линк
224. P. Concepcion, M. Boronat, R. Millán, M. Moliner and A. Corma, Identification of Distinct Copper Species in Cu-CHA Samples Using NO as Probe Molecule. A Combined IR Spectroscopic and DFT Study, Top. Catal., 60(2017) 1653-1663, 2017 Линк
225. R. Das, C.D. Vecitis, A. Schulze, B. Cao, A.F. Ismail, X. Lu, J. Chen and S. Ramakrishna, Recent advances in nanomaterials for water protection and monitoring, Chem. Soc. Rev., 46 (2017) 6946-7020, 2017 Линк
226. O. Cleary, Chiroptically-Active Metal Oxide Nanomaterials, Ph. D. Thesis, University of Dublin, Ireland, 2017 [GS]., 2017
227. S. Civis, Heterogenous reactions of carbon dioxide with oxygen containing minerals, Ph. D. Thesis, , Institute of Physical Chemistry J. Heyrovsky, Praha, Czech Republic, 2017 [GS]., 2017
228. M. Boronat and P. Concepcion, Combined theoretical and spectroscopic mechanistic studies for improving activity and selectivity in heterogeneous catalysis, Catal. Today, (2017) 166-178, 2017 Линк
229. D.V. Barsukov, A.V. Saprykin, I.R. Subbotina and N.Y. Usachev, Beneficial effect of TiO2 surface fluorination on the complete photooxidation of ethanol vapor, Mendeleev Commun., 27 (2017) 248-250, 2017 Линк
78. Shumov, D., Nikolov, V., Nihtianova, D., Macicek, J., Georgieva, J., Nenov, A.. High-temperature solutions suitable for the growth of NdAl3(BO3)4 crystals. Journal of Crystal Growth, 172, 3-4, Elsevier,
page 24/232
1997, ISSN:00220248, DOI:10.1016/S0022-0248(96)00706-3, 478-485. SJR:0.735, ISI IF:1.632
Цитира се в:
230. Volkova, E.A., Maltsev, V.V., Leonyuk, N.I., Flux growth of NdAl3(BO3)4 single crystals from a K2Mo3O10 based system (2017) CrystEngComm, 19 (7), pp. 1071-1075, 2017
79. Bauer, G., Nikolov, G.St., Trendafilova, N.. Molecular structure and vibrational spectra of bis-N,N'-diethyldithiocarbamate compounds with closed-shell metal ions. Journal of Molecular Structure, 415, Elsevier, 1997, 123-134. ISI IF:1.602
Цитира се в:
231. Grenland, J. J., Lin, C. Gong, K., Kelley, D.F., and Kelley, A.M., Resonance Raman Investigation of the Interaction between Aromatic Dithiocarbamate Ligands and CdSe Quantum Dots, J. Phys. Chem. C, 2017, 121 (12), pp 7056–7061, DOI: 10.1021/acs.jpcc.7b01651., 2017 Линк
80. Stoyanova, R., Zhecheva, E., Alcántara, R., Lavela, P., Tirado, J.L.. EPR studies of Li 1− x (Ni y Co 1− y) 1+ x O 2 solid solutions. Solid State Communications, 102, 6, Elsevier BV, 1997, ISSN:0038-1098, DOI:10.1016/S0038-1098(97)00008-2, 457-462. SJR:0.815, ISI IF:1.897
Цитира се в:
232. Julien, C. Techniques for the characterization of new cathode materials., In: Trends in Materials Science, Ed. by S. Radhakrishna, Narosa, New Delhi (1997), pp. 44-63., 2017 Линк
81. Nikolov, I., Darkaoui, R., Zhecheva, E., Stoyanova, R., Dimitrov, N., Vitanov, T.. Electrocatalytic activity of spinel related cobaltites MxCo3-xO4 (M = Li, Ni, Cu) in the oxygen evolution reaction. Journal of Electrocnalytical Chemistry, 429, 1-2, 1997, ISSN:0022-0728, 157-166. ISI IF:2.729
Цитира се в:
233. Cho, M. K., Lim, A., Lee, S. Y., Kim, H. J., Yoo, S. J., Sung, Y. E., ... & Jang, J. H. A Review on Membranes and Catalysts for Anion Exchange Membrane Water Electrolysis Single Cells., J. Electrochem. Sci. Technol., 2017, 8(3), 183-196., 2017 Линк
234. Suen, N. T., Hung, S. F., Quan, Q., Zhang, N., Xu, Y. J., & Chen, H. M. (2017). Electrocatalysis for the oxygen evolution reaction: recent development and future perspectives. Chemical Society Reviews, 46(2), 337-365., 2017 Линк
235. Zhang, C., Zhang, X., Daly, K., Berlinguette, C. P., & Trudel, S. (2017). Water oxidation catalysis: Tuning the electrocatalytic properties of amorphous lanthanum cobaltite through calcium doping. ACS Catalysis, 7(9), 6385-6391., 2017 Линк
236. Wei, L., Karahan, H. E., Zhai, S., Liu, H., Chen, X., Zhou, Z., ... & Chen, Y., Amorphous Bimetallic Oxide–Graphene Hybrids as Bifunctional Oxygen Electrocatalysts for Rechargeable Zn–Air Batteries, Adv. Mater., 2017, 1701410., 2017 Линк
237. Stamenkovic, V. R., Strmcnik, D., Lopes, P. P., & Markovic, N. M. (2017). Energy and fuels from electrochemical interfaces. Nature Materials, 16(1), 57-69., 2017 Линк
238. Li, J., & Zheng, G., One‐Dimensional Earth‐Abundant Nanomaterials for Water‐Splitting Electrocatalysts., Adv Sci (Weinh). 2017 Mar; 4(3): 1600380., 2017 Линк
239. Wang, Y., Zhang, B., Pan, W., Ma, H., Zhang, J. "3 D Porous Nickel–Cobalt Nitrides Supported on Nickel Foam as Efficient Electrocatalysts for Overall Water Splitting". ChemSusChem, 10 (21), pp. 4170-4177, 2017, 2017 Линк
240. Lin, C.-C., McCrory, C.C.L. "Effect of Chromium Doping on Electrochemical Water Oxidation Activity by Co3-xCrxO4 Spinel Catalysts" ACS Catalysis, 7 (1), pp. 443-451, 2017,
page 25/232
2017 Линк
241. Luo, Y., Alonso-Vante, N. "Application of Metal Organic Framework (MOF) in the electrocatalytic process". SPR Electrochemistry, 14, pp. 194-256, 2017, 2017 Линк
242. Huang, Y., Zeng, M., Gong, Q., Li, Y. "Electrocatalytic processes in energy technologies". Nanomaterials for Energy Conversion and Storage, pp. 291-341, 2017, 2017 Линк
243. Trasatti, S. "Interfacial electrochemistry of conductive oxides for electrocatalysis". Interfacial Electrochemistry: Theory: Experiment, and Applications, pp. 769-792, 2017, 2017 Линк
244. Yao, S., Wang, C., Li, M., Cheng, Y., Xing, W., & Jiang, S. P. (2017). Dimensionally stable Ni Fe Co/Ti nanoporous electrodes by reactive deposition for water electrolysis. International Journal of Hydrogen Energy, 42(10), 7143-7150., 2017 Линк
245. Anantharaj, S., Reddy, P. N., & Kundu, S. (2017). Core-Oxidized Amorphous Cobalt Phosphide Nanostructures: An Advanced and Highly Efficient Oxygen Evolution Catalyst. Inorganic chemistry, 56(3), 1742-1756., 2017 Линк
246. Natarajan, S., Anantharaj, S., Tayade, R. J., Bajaj, H. C., & Kundu, S. (2017). Recovered spinel MnCo 2 O 4 from spent lithium-ion batteries for enhanced electrocatalytic oxygen evolution in alkaline medium. Dalton Transactions, 46(41), 14382-14392., 2017 Линк
247. Hsu, C. S., Suen, N. T., Hsu, Y. Y., Lin, H. Y., Tung, C. W., Liao, Y. F., ... & Chen, H. M. (2017). Valence-and element-dependent water oxidation behaviors: in situ X-ray diffraction, absorption and electrochemical impedance spectroscopies. Physical Chemistry Chemical Physics, 19(13), 8681-8693., 2017 Линк
248. Mathankumar, M., Anantharaj, S., Nandakumar, A. K., Kundu, S., & Subramanian, B. (2017). Potentiostatic phase formation of β-CoOOH on pulsed laser deposited biphasic cobalt oxide thin film for enhanced oxygen evolution, J. Mater. Chem. A, 2017, 5, 23053-23066., 2017 Линк
249. Lim, T. H., Park, S. B., Kim, J. M., & Kim, D. H. (2017). Ordered mesoporous MCo 2 O 4 (M = Cu, Zn and Ni) spinel catalysts with high catalytic performance for methane combustion. Journal of Molecular Catalysis A: Chemical, 426, 68-74., 2017 Линк
250. Polyakov, M., Surkus, A. E., Maljusch, A., Hoch, S., & Martin, A. Impact of Co: Cu ratio of CoCu‐containing oxidic solids on their activity for water splitting reaction. ChemElectroChem., vol. 4, issue 8, pp. 2109–2116., 2017 Линк
82. E. Vassileva, Hadjiivanov , K.. Determination of trace elements in AR grade alkali salts after preconcentration by column solid-phase extraction on TiO2 (anatase). Fresenius' Journal of Analytical Chemistry, 357, Springer International Publishing AG, 1997, DOI:10.1007/s002160050267, 881-885. ISI IF:1.398
Цитира се в:
251. D. Hu, J. Ma, Y. Liu, X. Kang, K. Zhang and F. Bian, in Adv. Energy Environ. Mater Sci., Tailor & Francis Group, London, 2017, p. 283 [GB], 2017
252. J. Gao, Research progress in the application of nanomaterials for the adsorption of heavy metal ions in wastewater, Adv. Energy Environ. Mater. Sci. (W. Yeping and Z. Shiquan, Eds.), Tailor & Francis, Boca Raton, USA, 2017, p. 283, 2017 Линк
83. Radev D. D., Blaskob V., Klissurski D., Mitov I., Toneva A.. Effect of the mechanical activation of the reagents on the solid phase synthesis of iron (III) molybdate. Journal of Alloys and Compounds, 256, 1-2, 1997, ISSN:0925-8388, DOI:10.1016/S0925-8388(96)03052-6, 108-111. ISI IF:2.999
Цитира се в:
253. Krithikadevi Ramachandran, Siva Chidambaram, Balraj Baskaran, Arulmozhi Muthukumarasamy, John Berchmans Lawrence, Investigations On Structural Optical and
page 26/232
Magnetic Properties of Solution Combustion Synthesized Nanocrystalline, Iron Molybdate, Bulletin of Materials Science, February 2017, Volume 40, Issue 1, pp 87–92, 2017 Линк
254. R. N. Rumyantsev, A. Il’yin, K. R. Pimenova, A. P. Il’yin, Conditions of formation of iron molybdate(III) by ceramic and mechanochemical syntheses, Russian Journal of General Chemistry, September 2017, Volume 87, Issue 9, pp 2224–2228, 2017 Линк
84. Stambolova I., Konstantinov, K., Kovacheva, D., Peshev, P., Donchev, T.. Spray Pyrolysis Preparation and Humidity Sensing Characteristics of Spinel Zinc Stannate Thin Films. Journal of Solid State Chemistry, 2, 1997, ISI IF:2.133
Цитира се в:
255. Wang, Jinghui, et al. "One-pot hydrothermal synthesis of highly efficient SnO x/Zn 2 SnO 4 composite photocatalyst for the degradation of methyl orange and gaseous benzene." Applied Catalysis B: Environmental 200 (2017): 19-30., 2017 Линк
256. Niang, Kham M., et al. "Zinc tin oxide thin film transistors produced by a high rate reactive sputtering: Effect of tin composition and annealing temperatures." physica status solidi (a) 214.2 (2017) 1600470., 2017 Линк
257. Saeedabad, S. Hemmatzadeh, et al. "Gas sensing applications of the inverse spinel zinc tin oxide." Materials Science in Semiconductor Processing 71 (2017): 461-469., 2017 Линк
258. Huang, Xiao-Juan, et al. "Inverted polymer solar cells with Zn 2 SnO 4 nanoparticles as the electron extraction layer." Chinese Chemical Letters 28(8) (2017) 1755-1759., 2017 Линк
259. Hedayat, Hamoon, et al. "Nanostructure evolution of zinc stannate: A suitable material for liquefied petroleum gas detection." Journal of Alloys and Compounds 704 (2017): 413-419., 2017 Линк
260. Aldossary, Minahi S., et al. "A family of microscale 2× 2× 2 Pocket Cubes." CrystEngComm 19.36 (2017): 5422-5431., 2017 Линк
261. Salohub, A. O., et al. "Determination of fundamental optical constants of Zn 2 SnO 4 films." Semiconductor Physics, Quantum Electronics & Optoelectronics 20 (1) (2017) 79-84., 2017 Линк
262. Bangbai, Chatpong, et al. "Effect of hexamethylenetetramine and temperature on morphological and structural properties of hydrothermally grown ZnSn (OH) 6 structure." Materials Today: Proceedings 4.5 (2017): 6031-6036., 2017 Линк
263. Premkumar, V. K., Dinesh Selvakumaran, and K. Mohanraj. "Facile hydrothermally synthesized mesoporous manganous stannate (Mn 2 SnO 4) nanoparticles and its electrochemical properties." Materials Research Express 4 (2017) 125010 ., 2017 Линк
85. Zhecheva, E., Stoyanova, R., Gorova, M., Alcantara, F. R., Morales, J., Tirado, J. L.. Ultrafine layered LiCoO2 obtained from citrate precursors. Ionics, 3, 1-2, Springer-Verlag, 1997, 1-15. ISI IF:2.119
Цитира се в:
264. Santana, I. L., Moreira, T. F. M., Lelis, M. F. F., & Freitas, M. B. J. G. (2017). Photocatalytic properties of Co 3 O 4/LiCoO 2 recycled from spent lithium-ion batteries using citric acid as leaching agent. Materials Chemistry and Physics., Volume 190, Pages 38-44., 2017 Линк
1998
86. Mehandjiev, D., Zhecheva, E., Ivanov, G., Ioncheva, R.. Preparation and catalytic activity of nickel-manganese oxide catalysts with an ilmenite-type structure in the reactions of complete oxidation of hydrocarbons. Applied Catalysis A: General, 167, 2, 1998, ISSN:0926-860x, 277-282. SJR:1.234, ISI IF:3.19
page 27/232
Цитира се в:
265. Zhang, D., Zhang, G., Wang, Q., Zhang, L. "Dual-functional catalytic materials: Magnetically hollow porous Ni-manganese oxides microspheres/cotton cellulose fiber"(2017). Journal of the Taiwan Institute of Chemical Engineers, 77, pp. 311-320, 2017 Линк
266. Fukushima, J., Takayama, S., Goto, H., Sato, M., Takizawa, H. "In situ analysis of reaction kinetics of reduction promotion of NiMn2O4under microwave H-field irradiation"(2017). Physical Chemistry Chemical Physics, 19 (27), pp. 17904-17908, 2017 Линк
87. D. D. Radev, Z. Zakhariev. Structural and Mechanical Properties of Activated Sintered Boron Carbide-Based Materials. Journal of Solid State Chemistry, 137, 1, 1998, ISSN:0022-4596, 1-5. SJR:0.615, ISI IF:2.299
Цитира се в:
267. Rahimi, Amirhossein, and Hamidreza Baharvandi. "Effect of tungsten carbide nanoparticles on mechanical properties and sinterability of B 4 C-WC nanocomposites using pressureless sintering method." International Journal of Refractory Metals and Hard Materials Volume 66, August 2017, Pages 220–225, 2017 Линк
88. Stoyanova, D., Christova, M., Dimitrova, P, Marinova, J., Kasabova, N., Panayotov, D.. Copper–cobalt oxide spinel supported on high-temperature aluminosilicate carriers as catalyst for CO–O2 and CO–NO reactions. Applied Catalysis B: Environmental, 17, 3, Elsevier Science B.V., 1998, ISSN:0926-3373, DOI:http://dx.doi.org/10.1016/S0926-3373(98)00011-3, 233-244. SJR:3.15, ISI IF:7.435
Цитира се в:
268. Fan, S.-B.; Kouotou, P. M.; Weng, J.-J.; Pan, G.-F.; Tian, Z.-Y., Investigation on the structure stability and catalytic activity of Cu–Co binary oxides, Proceedings of the Combustion Institute, 2017, Vol 36 (3) pp4375-4382, 2017 Линк
269. Hosokawa, S., Matsuki, K., Tamaru, K., Oshimo, Y., Aritani, H., Teramura, K., Tanaka, T., “Selective reduction of NO over Cu/Al2O3: Enhanced catalytic activity by infinitesimal loading of Rh on Cu/Al2O3” Molecular Catalysis, Vol. 442, 2017, p 74-82., 2017
89. Dimitrov, D., Tzocheva, D., Kovacheva, D.. Calorimetric study of amorphous Sb-Se thin films. Thin Solid Films, 323, 1-2, 1998, ISSN:0040-6090, 79-84. ISI IF:1.759
Цитира се в:
270. Singh, Karishma, et al. "Study of Glass Transition Kinetics in Glassy Se90Bi10–x Agx (x = 0, 2, 4, 6) Alloys." Materials Focus 6.5 (2017): 572-577., 2017 Линк
271. Kamruzzaman, M., Liu, C., Farid Ul Islam, A.K.M., Zapien, J.A. A comparative study on the electronic and optical properties of Sb2Se3 thin film (2017) Semiconductors, 51 (12), pp. 1615-1624., 2017 Линк
90. Hadjiivanov, K.. FTIR study of CO and NH3 co-adsorption on TiO2 (rutile). Applied Surface Science, 135, 1998, DOI:10.1016/S0169-4332(98)00298-0, 331-338. ISI IF:1.045
Цитира се в:
272. A.W. Morawski, E. Kusiak-Nejman, A. Wanag, J. Kapica-Kozar, R.J. Wrobel, B. Ohtani, M. Aksienionek and L. Lipińska, Photocatalytic degradation of acetic acid in the presence of visible light-active TiO 2-reduced graphene oxide photocatalysts, Catal. Today, 280 (2017) 108 [ISI]., 2017 Линк
273. Z. Konuspayeva, G.D. Berhault, P. Afanasiev, T. Nguyen, S. Giorgio and L. Piccolo, Monitoring in situ the colloidal synthesis of AuRh/TiO 2 selective-hydrogenation nanocatalysts, J. Mater. Chem. A, 5 (2017) 17360 [ISI]., 2017 Линк
page 28/232
274. J. Kapica-Kozar, B. Michalkiewicz, R.J. Wrobel, S. Mozia, E. Pirog, E. Kusiak-Nejman, J. Serafin, A.W. Morawski and U. Narkiewicz, Adsorption of carbon dioxide on TEPA-modified TiO 2/titanate composite nanorods, New J. Chem., 41 (2017) 7870 [ISI]., 2017 Линк
275. Z. Yan, S. Shi, Z. Li, Z. Zuo, S. Li and X. Chen, The Initial Stages of NH3 and NO Adsorption On (Mo2O5) 2+/HZSM-5 with Two Adjacent Unsaturated fiveFold Mo Sites in SCR Reaction: A Cluster DFT Study, Catal. Lett., 147 (2017) 1006 [ISI]., 2017 Линк
276. E. Wada, A. Tyagi, A. Yamamoto and H. Yoshida, Dehydrogenative lactonization of diols with a platinum-loaded titanium oxide photocatalyst, Photochem. Photobiol. Sci., 16 (2017) 1744 [ISI]., 2017 Линк
277. S.D. Al-Algawi, R.T. Rasheed and Z.R. Rhoomi, Structural and Optical Properties of Annealed TiO2 Powder Synthesized by Hydrothermal Method, Iraqi J. Sci., 58 (2017) 1683 [ISI]., 2017 Линк
278. T. Tran-Thuy, C. Chen and S.D. Lin, Spectroscopic Studies of How Moisture Enhances CO Oxidation over Au/BN at Ambient Temperature, ACS Catal., 7 (2017) 4304 [ISI]., 2017 Линк
279. T. Tran-Thuy, Influences of moisture on room temperature co oxidation over Au/BN catalysts, Ph. D. Thesis, National Taiwan University of Science and Technology, Taipei, Taiwan, 2017 [GS]., 2017
280. E. Wada, Catalytic reactions of organic compounds by titanium oxides and titanate nanotubes, Ph. D. Thesis, Kyoto University, Kyoto, Japan, 2017 [GS]., 2017
281. E. Rezaei, B. Schlageter, M. Nemati and B. Predicala, Evaluation of metal oxide nanoparticles for adsorption of gas phase ammonia, J. Environ. Chem. Eng., 5 (2017) 422 [ISI]., 2017 Линк
91. Kovacheva, D., Petrov, K.. Preparation of crystalline ZnSnO3 from Li2SnO3 by low-temperature ion exchange. Solid State Ionics, 109, 3-4, 1998, ISSN:0167-2738, 327-332. ISI IF:2.561
Цитира се в:
282. Teo, L. P. "Impedance spectroscopy analysis of Li2SnO3." Ionics 23.2 (2017): 309-317., 2017 Линк
283. Sydorchuk, V. V., et al. "Фізико-хімічні та фотокалітичні дослідження композиції ZnO-SnO 2 еквімолярного складу, модифікованої шляхом гідротермальної та термічної обробки." Хімія, фізика та технологія поверхні 8.2 (2017): 120-132., 2017 Линк
284. Saji, K.J., Jayaraj, M.K. Oxide thin film transistors (2017) Oxide Thin Film Transistors, pp. 1-222., 2017 Линк
285. МАРЬИНА, У. А., РАЗРАБОТКА ТЕХНОЛОГИИ СИНТЕЗА И ИССЛЕДОВАНИЕ ЛЮМИНОФОРОВ НА ОСНОВЕ CaSnO3, BaSnO3, SrSnO3, АКТИВИРОВАННЫХ РЕДКОЗЕМЕЛЬНЫМИ ИОНАМИ, дисертация, 2017., 2017 Линк
286. Lai, Jian-Jhong, et al. "Interplay of Nanoscale, Hybrid P3HT/ZTO Interface on Optoelectronics and Photovoltaic Cells." ACS Applied Materials & Interfaces 9.38 (2017): 33212-33219., 2017 Линк
287. Guo, Runjiang, et al. "Synthesis of Orthorhombic Perovskite-Type ZnSnO3 Single-Crystal Nanoplates and Their Application in Energy Harvesting." ACS Applied Materials & Interfaces 9.9 (2017): 8271-8279., 2017 Линк
288. Park, Jooyoung, Ikjae Lee, and Jaeyong Kim. "Physical Properties of Zinc-Tin-Oxide Thin Films Deposited on Sapphire Substrates by an Rf-Magnetron Sputtering Method." Science of Advanced Materials 9.2 (2017): 285-289., 2017 Линк
289. Prabakaran, P., et al. "Hollow ZnSnO3 Crystallites: Structural, Electrical and Optical
page 29/232
Properties." Recent Trends in Materials Science and Applications. Springer, Cham, 2017. 255-262., 2017 Линк
92. Hadjiivanov , K., Mihaylov, M., N. Abadjieva, Klissurski, D.. Characterization of Ni/TiO2 Catalysts Prepared by Successive Adsorption-reduction of Ni2+ ions. J. Chem. Soc., Faraday Trans., 94, Royal Society of Chemistry, 1998, ISSN:0956-5000, DOI:10.1039/A804978E, 3711-3716. ISI IF:1.757
Цитира се в:
290. T.V. Larina, Y.E. Fedorova, T.A. Krieger, A.V. Ishchenko, T.S. Glazneva, E.M. Sadovskaya, N.F. Eremeev and V.A. Sadykov. "Synthesis, physicochemical and catalytic properties of Ni/PrCeZrO catalysts for water-gas shift reaction" Catal. Sustain. Energy, 4 (2017) 73, 2017 Линк
291. Z. Wang, Selective Hydrogenation of Butadiene over Non-noble Bimetallic Catalysts, Ph. D. Thesis, Université Pierre et Marie Curie, Paris, France, 2017, 2017 Линк
93. Hadjiivanov, K.. IR study of CO and H2O coadsorption on Ptn+/TiO2 and Pt/TiO2 samples. Journal of the Chemical Society, Faraday Transactions, 98, 1998, DOI:10.1039/A801892H, 1901-1904. ISI IF:1.757
Цитира се в:
292. J.D.V. Castro, Valoracion de moléculas plataforma derivadas de biomasa mediante aminacion reductiva utilizando nanopartículas metálicas como catalizadores heterogéneos, Ph. D. Thesis, Universitat Politecnica de Valencia, Valencia, Spain, 2017 [GS]., 2017 Линк
293. L. DeRita, S. Dai, K. Lopez-Zepeda, N. Pham, G.W. Graham, X. Pan and P. Christopher, Catalyst Architecture for Stable Single Atom Dispersion Enables Site-Specific Spectroscopic and Reactivity Measurements of CO Adsorbed to Pt Atoms, Oxidized Pt Clusters, and Metallic Pt Clusters on TiO2, J. Am. Chem. Soc., 139 (2017) 14150 [ISI]., 2017 Линк
294. M.H. Kim, J.H. Park and Y.S. Hong, Characterization of Supported Platinum Nanocrystallites with Different Sizes and These Effects on a Model Reaction, Top. Catal., 60 (2017) 773 [ISI]., 2017 Линк
295. S. Liu, J. Miles Tan, A. Gulec, L.A. Crosby, T.L. Drake, N.M. Schweitzer, M. Delferro, L.D. Marks, T.J. Marks and P.C. Stair, Stabilizing Single-Atom and Small-Domain Platinum via Combining Organometallic Chemisorption and Atomic Layer Deposition, Organometallics, 36 (2017) 818 [ISI]., 2017 Линк
296. M. Kennedy, Support and Overcoating Effects on Selective Catalysis of Platinum Nanoparticle Model Catalysts, Ph. D. Thesis, Northwestern University, Evanston, USA, 2017, 2017 Линк
297. J.D. Vidal, M.J. Climent, A. Corma, P. Conception and S. Iborra, , One‐Pot Selective Catalytic Synthesis of Pyrrolidone Derivatives from Ethyl Levulinate and Nitro Compounds, ChemSusChem, 10 (2017) 119, 2017 Линк
298. C. Lentz, S.P. Jand, J. Melke, C. Roth and P. Kaghazchi, DRIFTS study of CO adsorption on Pt nanoparticles supported by DFT calculations, J. Mol. Catal. A, 426 (2017) 1 [ISI]., 2017 Линк
94. Hadjiivanov, K., Lavalley, J.-C., Lamotte, J., Mauge, F., Saint-Just , J., Che, M.. FTIR Study of CO Interaction with Ru/TiO2Catalysts. Journal of Catalysis, 176, 1998, DOI:10.1006/jcat.1998.2038, 415-425. ISI IF:2.99
Цитира се в:
299. H. Shen, X. Wu, D. Jiang, X. Li and J. Ni, Identification of active sites for hydrogenation over Ru/SBA-15 using in situ Fourier-transform infrared spectroscopy, Chin. J. Catal., 38 (2017) 1597 [ISI]., 2017 Линк
page 30/232
300. D. Li, R. Li, M. Lu, X. Lin, Y. Zhan and L. Jiang, Carbon dioxide reforming of methane over Ru catalysts supported on Mg-Al oxides: A highly dispersed and stable Ru/Mg (Al) O catalyst, Appl. Catal. B, 200 (2017) 566 [ISI]., 2017 Линк
301. Y. Wang, J. Zhang, H. Chen, Z. Zhang, C. Zhang, M. Li and F. Wang, Ru/ceria-catalyzed direct formylation of amines and CO to produce formamides, Green Chem., 19 (2017) 88 [ISI]., 2017 Линк
302. Sánchez, M. A., Torres, G. C., Mazzieri, V. A. and Pieck, C. L., Selective hydrogenation of fatty acids and methyl esters of fatty acids to obtain fatty alcohols–a review, J. Chem. Technol. Biotechnol., 92 (2017) 27–42, 2017 Линк
303. L.A. Calzada, S. Collins, C.W. Han, V. Ortalan, R.Zanella, Synergetic effect of bimetallic Au-Ru/TiO2 catalysts for complete oxidation of methanol, Appl. Catal. B, 207 (2017) 79 [ISI]., 2017 Линк
95. Witte, G., Weiss, K., Jakob, P., Braun, J., Kostov, K.L., Wöll, Ch.. Damping of molecular motion on a solid substrate: evidence for electron-hole pair creation. Physical review letters, 80, 1, American Physical Society, 1998, ISSN:0031-9007, DOI:10.1103/PhysRevLett.80.121, 121-124. ISI IF:7.645
Цитира се в:
304. Li, J.W., Wang, T.B., Liu, N.H. and Yu, T., Dependence of the sliding distance of a one-dimensional atom chain on initial velocity. Scientific reports, 7(1), p.16290, 2017., 2017
96. Hadjiivanov, K., Saussey, J., Freysz, J.-L., Lavalley, J.-C.. FT-IR study of NO + O2 co-adsorption on H-ZSM-5: re-assignment of the 2133 cm-1 band to NO+ species. Catalysis Letters, 52, 1, Springer International Publishing AG, 1998, DOI:10.1023/A:1019059117488, 103-108. ISI IF:2.307
Цитира се в:
305. R. Pérez Vélez, U. Bentrup, W. Grünert and A. Brückner, "The Role of NO2 in the Fast NH3-SCR of NOx: A Combined In Situ FTIR and EPR Spectroscopic Study" Top. Catal., 19-20 (2017) 1641–1652, 2017 Линк
306. H. Ruan, M. Nishibori, T. Uchiyama, K.Ninomiya, K. Kamitani, K. Kato, Y. Konishi, A. Haensch, N. Barsan, U. Weimar and K. Shimanoe, "Soot oxidation performance with a HZSM-5 supported Ag nanoparticles catalyst and the characterization of Ag species" RSC Adv., 7 (2017) 43789, 2017 Линк
307. S. Najafishirtari, Nanoparticles for Technological Applications, Ph. D. Thesis, Universita’ degli Studi di Genova, Genova, Italy and Universität Regensburg, Regensburg, Germany, 2017, 2017 Линк
97. Stambolova I., Konstantinov K., Khristova M., Peshev P.. NO sensitivity of spinel type Zn2SnO4 spray deposited films. Physica Status Solidi (A) Applied Research, 167, 2, 1998, R11-R12. ISI IF:1.45
Цитира се в:
308. S.Hemmatzadeh Saeedabad, C.Baratto, F.Rigoni, S.M.Rozati, G.Sberveglieri, K.Vojisavljevic, B.Mali, S.Hemmatzadeh Saeedabad " Gas sensing applications of the inverse spinel zinc tin oxide" Materials Science in Semiconductor Processing, Volume 71, 2017, Pages 461-469, 2017
98. Iordanova, R., Dimitriev, Y., Dimitrov, V., Kassabov, S., Klissurski, D.. Glass formation and structure in the MoO3-Bi2O3-Fe2O3 glasses. Journal of Non-Crystalline Solids, 231, 3, Elsevier, 1998, ISSN:00223093, DOI:10.1016/S0022-3093(98)00456-6, 227-233. SJR:0.753, ISI IF:1.766
Цитира се в:
309. Shin, J.-Y., Cha, J.-M., Kim, D.-S., Jeong, D.-G., Bae, J.-H., Ryu, B.-K. Study on the water durability of molybdate glasses with B2O3 as low temperature sealing materials (2017)
page 31/232
Journal of Korean Institute of Metals and Materials, 55 (12), pp. 905-910., 2017 Линк
310. Shin, J.-Y., Ryu, B.-K. Structural, thermal, and chemical properties of boron oxide-doped molybdate glass for use as a lead-free low-temperature sealing material (2017) Journal of the Ceramic Society of Japan, 125 (12), pp. 922-925., 2017 Линк
311. Andronache, C., Balasoiu, M., Racolta, D. Magnetic Interaction between Iron Particles in Lithium Phosphate Systems (2017) Russian Journal of Physical Chemistry A, 91 (13), pp. 2686-2689., 2017 Линк
312. Rao, M.V. S., Kumar. A.S., Ram G.Ch., Tirupataiah, Ch., Rao, D.K. "Assessment of role of iron ions on the physical and spectroscopic properties of multi-component Na2O− PbO− Bi2O3− SiO2 glass ceramics." (2017) Phase Transitions 91, 92-107, 2017 Линк
99. Hadjiivanov , K.. IR Study of CO and NOx Sorption on Ag–ZSM-5. Microporous and Mesoporous Materials, 24, 1-3, Elsevier, 1998, DOI:doi:10.1016/S1387-1811(98)00147-4, 41-49. ISI IF:3.453
Цитира се в:
313. K. Tan, S. Zuluaga, H. Wang, P. Canepa, K. Soliman, J. Cure, J. Li, T. Thonhauser and Y.J. Chabal, Interaction of Acid Gases SO2 and NO2 with Coordinatively Unsaturated Metal Organic Frameworks: M-MOF-74 (M = Zn, Mg, Ni, Co), Chem. Mater., 29 (2017) 4227 [ISI]., 2017 Линк
314. E. Kolobova, A. Pestryakov, G. Mamontov, Yu. Kotolevich, N. Bogdanchikova, M. Farias, A. Vosmerikov, L. Vosmerikova, V. Cortes Corberan, Low-temperature CO oxidation on Ag/ZSM-5 catalysts: Influence of Si/Al ratio and redox pretreatments on formation of silver active sites, Fuel, 188 (2017) 121-131 [ISI]., 2017 Линк
100. Antolini, E., Zhecheva, E.. Lithiation of spinel cobalt oxide by solid state reaction of Li2CO3 and Co3O4: An EPR study. Materials Letters, 35, 5-6, 1998, ISSN:0167-577x, 380-382. SJR:0.807, ISI IF:2.437
Цитира се в:
315. Masoud, E.M., El-Bellihi, A.-A., Bayoumy, W.A., Abdelazeem, E.S. "Structural, optical, magnetic, and electrical properties of nanospinels containing different molar ratios of cobalt and aluminum ions". Ionics, 23 (9), pp. 2417-2427, 2017, 2017 Линк
101. Alcantara, R., Lavela, P., Tirado, J. L., Stoyanova, R., Zhecheva, R.. Changes in structure and cathode performance with composition and preparation temperature of lithium cobalt nickel oxide. Journal of the Electrochemical Society, 145, 3, 1998, ISSN:0013-4651, 730-736. ISI IF:2.76
Цитира се в:
316. Wang, M., Luo, M., Chen, Y., Su, Y., Chen, L., & Zhang, R. (2016). Electrochemical deintercalation kinetics of 0.5 Li 2 MnO 3· 0.5 LiNi 1/3 Mn 1/3 Co 1/3 O 2 studied by EIS and PITT. Journal of Alloys and Compounds. (2017) 696, 907–913, 2017 Линк
317. Wu, F., Wang, H., Bai, Y., Li, Y., Wu, C., Chen, G., ... & Zhou, J. (2017). Hierarchical microspheres and nanoscale particles: Effects of morphology on electrochemical performance of Li 1.2 Mn 0.54 Ni 0.13 Co 0.13 O 2 cathode material for lithium-ion batteries. Solid State Ionics, 300, 149-156., 2017 Линк
318. Feng Wu, Hui Wang, Ying Bai, Yu Li, Chuan Wu, Guanghai Chen, Lu Liu, Qiao Ni, Xinquan Wang, Jiang Zhou, Hierarchical microspheres and nanoscale particles: Effects of morphology on electrochemical performance of Li1.2Mn0.54Ni0.13Co0.13O2 cathode material for lithium-ion batteries Solid State Ionics (2017) 300, 149-156, 2017 Линк
319. Akhtar, M. S., Alam, M. A., Tauer, K., Hossan, M. S., Sharafat, M. K., Rahman, M. M., ... & Ahmad, H. (2017). Core-shell structured epoxide functional NiO/SiO2 nanocomposite particles and photocatalytic decolorization of congo red aqueous solution. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 529, 783-792., 2017 Линк
page 32/232
320. Akhtar, S., Alam, M. A., & Ahmad, H. (2017). Fabrication of Nanosized Reactive Nickel Oxide Composite Particles for Degradation of Textile Dye. Journal of Scientific Research, 9(4), 413-420., 2017 Линк
321. Gao, M. (2017). Synthesis of Manganese-Based Electrode Materials Prepared by a Novel Dynamic Floating Electrodeposition (DFE) Method for Energy Storage Devices (Doctoral dissertation, University of Alberta)., 2017 Линк
1999
102. Hadjiivanov, K., Tsyntsarski, B., Nikolova, T.. Stability and reactivity of the nitrogen-oxo species formed after NO adsorption and NO+O2 coadsorption on Co-ZSM-5: An FTIR spectroscopic study. Physical Chemistry Chemical Physics, 1, 1999, DOI:10.1039/A904992D, 4521-4528. ISI IF:4.49
Цитира се в:
322. Q. Yang, Z. Chen, D. Zhou, W. Shen and S. Naito, Effect of cobalt substitution on nanoporous nickel phosphate VSB-5 catalyst for the catalytic reduction of NO by H2, Catal. Today, 297 (2017) 64 [ISI]., 2017 Линк
103. Alcantara, R., Lavela, P., Tirado, J. L., Zhecheva, E., Stoyanova, R.. Recent advances in the study of layered lithium transition metal oxides and their application as intercalation electrodes. Journal of Solid State Electrochemistry, 3, 3, 1999, ISSN:1432-8488, 121-134. ISI IF:2.446
Цитира се в:
323. Nakato, T. (2017). Synthetic Nanosheets from Ion-Exchangeable Layered Solids. In Inorganic Nanosheets and Nanosheet-Based Materials (pp. 55-100). Springer Japan., 2017 Линк
324. Kim Myung-ho(2017). Structural Refinement Using Nanowire and Micro-patterned Substrate for Si-or Sn-based Li-alloying Material in Li-ion Batteries (Doctoral dissertation), 2017 Линк
325. Kun, R.; Chen, C.; Ciucci, F.; Chapter 20 "Microenergy Storage", book Material‐Integrated Intelligent Systems ‐ Technology and Applications: Technology and Applications, 2017 Линк
104. Trendafilova, N., Georgieva, I.. Ab initio study of 1,1’-(methylphosphinylidene) bis(methanamine) and vibrational assignment of its N,N’-coordinated Pt(II) and Pd(II) chloro complexes. Vibrational Spectroscopy, 20, 2, Elsevier, 1999, ISSN:0924-2031, 133-142. ISI IF:2.003
Цитира се в:
326. Khalaf–Alla, P.A., Shoukry, M.M., Jbara, A.A. and van Eldik, R., Base hydrolysis of α-amino acid esters catalysed by [Pd (N-ethylethylenediamine)(H 2 O) 2] 2+. Kinetic study and DFT calculations.(2017) Inorganica Chimica Acta, 458(24) pp. 181-189, 2017 Линк
105. Gabrashanska, M, Tepavitcharova, S, Balarew, C, Galvez – Morroz, M, Arambarri, P. Effect of excess dietary manganese on healthy and Ascaridia galli infected chicks. Journal of Helminthology, 73, Cambridge Core, 1999, ISSN:0022-149X, 313-316. ISI IF:1.42
Цитира се в:
327. Bette S, B. Hinrichsen, Dinnebier R., On two glycine zinc sulfate phases with exotic cation coordination geometries. Z. Anorg. Allg. Chem., 2017, 643(23), pp. 1855–1860DOI 10.1002/ zaac.201700217, 2017 Линк
106. Tyuliev, G., Kostov, K.L.. XPS/HREELS study of NiO films grown on Ni(111). Physical Review B, 60, 4,
page 33/232
American Physical Society, 1999, DOI:10.1103/PhysRevB.60.2900, 2900-2907. ISI IF:3.736
Цитира се в:
328. Xu, Ya., Sakurai, Y., Teraoka, Y., Yoshigoe, A., Demura, M., Hirano, T., Initial oxidation behavior of Ni3Al (210) surface induced by supersonic oxygen molecular beam at room temperature, Applied Surface Science 391, Part A, 1 January 2017, Pages 18–23., 2017 Линк
329. Beniya, A., Ikuta, Y., Isomura, N., Hirata, H. and Watanabe, Y., 2017. Synergistic Promotion of NO-CO Reaction Cycle by Gold and Nickel Elucidated using a Well-Defined Model Bimetallic Catalyst Surface. ACS Catalysis, 7(2), pp.1369-1377., 2017 Линк
330. Dedkov, Y., Klesse, W., Becker, A., Späth, F., Papp, C. and Voloshina, E., Decoupling of graphene from Ni (111) via formation of an interfacial NiO layer, Carbon, 121, 2017, 10-16., 2017
331. Mishra, S., Yogi, P., Saxena, S.K., Jayabalan, J., Sagdeo, P.R. and Kumar, R., Three-fold Constructive Perturbation for Significant Enhancement in Field Emission from Nickel Oxide Nano-Thorn. arXiv preprint arXiv:1705.07715, 2017., 2017
332. Mishra, S., Yogi, P., Saxena, S.K., Jayabalan, J., Behera, P., Sagdeo, P.R. and Kumar, R., Significant field emission enhancement in ultrathin nano-thorn covered NiO nano-petals. Journal of Materials Chemistry C, 5(37), pp.9611-9618, 2017., 2017
333. Bignardi, L., Lacovig, P., Dalmiglio, M.M., Orlando, F., Ghafari, A., Petaccia, L., Baraldi, A., Larciprete, R. and Lizzit, S., Key Role of Rotated Domains in Oxygen Intercalation at Graphene on Ni (111), 2D Mater. 4 (2017) 025106., 2017 Линк
107. Lakov L., Vassileva P., Peshev P.. Sorption of heavy metals on pyrazolone-containing carbon sorbents. Carbon, 37, 1999, 1655-1657. ISI IF:1.72
Цитира се в:
334. Pratiwi, D., Saprudin, D., & Rohaeti, E. (2017, March). Synthesis of activated carbon-nanomagnetite-pyrazolone (1-phenyl-3-methyl-5-pyrazolone) composite as adsorbent for Cd2+. In IOP Conference Series: Earth and Environmental Science (Vol. 58, No. 1, p. 012003). IOP Publishing., 2017
335. Di Natale, F., Orefice, M., La Motta, F., Erto, A., Lancia, A. Unveiling the potentialities of activated carbon in recovering palladium from model leaching solutions (2017) Separation and Purification Technology, 174, pp. 183-193., 2017
108. Pujol, M.C., Rico, M., Zaldo, C., Solé, R., Nikolov, V., Solans, X., Aguilo, M., Díaz, F.. Crystalline structure and optical spectroscopy of Er3+-doped KGd(WO4)2 single crystals. Applied Physics B: Lasers and Optics, 68, 2, Springer Verlag, 1999, ISSN:1432-0649, DOI:10.1007/s003400050605, 187-197. SJR:0.999, ISI IF:1.856
Цитира се в:
336. Tang, Q., Xia, H., Sheng, Q., He, S., Zhang, J., Chen, B. Infrared spectroscopic characterization of Na5Lu9F32 single crystals doped with various Er3+concentrations (2017) Journal of Modern Optics, 64 (20), pp. 2238-2244., 2017
337. Kurilchik, S., Dernovich, O., Gorbachenya, K., Kisel, V., Kolesova, I., Kravtsov, A., Guretsky, S., Kuleshov, N. Growth, spectroscopy, and laser characterization of Er:KGdxYbyY1−x−y(WO4)2 epitaxial layers (2017) Optics Letters, 42 (21), pp. 4565-4568., 2017
338. Mohammadou, S., Mohamadou, B., Montemezzani, G. Complex beam shaping by cascaded conical diffraction with intercalated polarization transforming elements (2017) Optics Express, 25 (21), pp. 25392-25406, 2017
page 34/232
339. Wang, X., Kang, W., Xie, P., Zong, N. Theoretical improvement and experimental research on Raman coupled equations (2017) Optical Engineering, 56 (8), art. no. 086109, 2017
340. Meißner, C., Tröger, J.W., Kozlov, D.N., Beyrau, F., Seeger, T. Comparison of Raman-active crystals as a narrowband probe light source for picosecond three-color vibrational CARS thermometry (2017) Journal of Raman Spectroscopy, 48 (8), pp. 1026-1032., 2017
341. Smetanin, S.N., Jelínek, M., Kubeček, V. Parametric Raman crystalline anti-Stokes laser at 503 nm with collinear beam interaction at tangential phase matching (2017) Applied Physics B: Lasers and Optics, 123 (7), art. no. 20, 2017
342. Bacha, F.B., Guidara, K., Dammak, M., Megdiche, M. AC and DC conductivity study of ceramic compound NaGd(WO4)2 using impedance spectroscopy (2017) Journal of Materials Science: Materials in Electronics, 28 (14), pp. 10630-10639., 2017
343. Meißner, C., Tröger, J.W., Kozlov, D.N., Beyrau, F., Seeger, T. Three-color vibrational CARS thermometry of fuel-rich ethylene/air flames using a potassium gadolinium tungstate Raman-active crystal as a source of narrowband probe radiation (2017) Applied Optics, 56 (11), pp. E77-E83., 2017
344. Gao, X., Chen, M., Study on stimulated Raman scattering and up-conversion phenomenon in impure KGd(WO4)2 crystal (2017) Applied Physics B: Lasers and Optics, 123 (4), art. no. 133, 2017
345. Akbari, R., Fedorova, K.A., Rafailov, E.U., Major, A. Diode-pumped ultrafast Yb:KGW laser with 56 fs pulses and multi-100 kW peak power based on SESAM and Kerr-lens mode locking (2017) Applied Physics B: Lasers and Optics, 123 (4), art. no. 123, 2017
346. Filippov, V.V. Spatial, polarization and angular characteristics of external conical refraction (2017) Optics Communications, 387, pp. 141-147., 2017
347. Turpin, A., Rego, L., Picon, A., San Román, J., Hernández-García, C. Extreme Ultraviolet Fractional Orbital Angular Momentum Beams from High Harmonic Generation (2017) Scientific Reports, 7, art. no. 43888, 2017
348. Demiaï, A., Derbal, M., Guerbous, L., Rekik, B. Structure, optical and photoluminescence properties of LiGd1−xErx(WO4)2 green luminescence phosphor (2017) Optical Materials, 65, pp. 137-141., 2017
349. Gao, X., Long, M., Chen, M. Study on picosecond collinear eight Stokes Raman laser generation (2017) Applied Optics, 56 (5), pp. 1383-1387., 2017
350. Vázquez-Cordova, S.A., Aravazhi, S., Grivas, C., Heuer, A.M., Kränkel, C., Yong, Y.-S., García-Blanco, S.M., Herek, J.L., Pollnau, M. Spectroscopy of erbium-doped potassium double tungstate waveguides (2017) Proceedings of SPIE - The International Society for Optical Engineering, 10106, art. no. 1010604, 2017
351. Kasprowicz, D., Głuchowski, P., Maciejewska, B.M., Chrunik, M., Majchrowski, A. Up-conversion luminescence of rare earth-doped KGd(WO4)2 phosphors for tunable multicolour light generation (2017) New Journal of Chemistry, 41 (18), pp. 9847-9856., 2017
352. Pollnau, M. Rare-Earth-Doped Waveguide Amplifiers and Lasers (2017) Handbook on the Physics and Chemistry of Rare Earths, 51, pp. 111-168, 2017
353. Spence, D.J. Spectral effects of stimulated Raman scattering in crystals (2017) Progress in Quantum Electronics, 51, pp. 1-45., 2017
354. Dubietis, A., Tamošauskas, G., Šuminas, R., Jukna, V., Couairon, A. Ultrafast supercontinuum generation in bulk condensed media [Femtosekundinio superkontinuumo generavimas plačios apertūros kondensuotose terpėse] (2017) Lithuanian Journal of Physics, 57 (3), pp. 113-157., 2017
109. Spassova I., Khristova M., Panayotov D., Mehandjiev D.. Coprecipitated CuO-MnOx for Low-
page 35/232
Temperature CO-NO and CO-NO-O2 Reactions. Journal of Catalysis, 185, 1, Elsevier, 1999, 43-57. ISI IF:6.921
Цитира се в:
355. Liu, T., Yao, Y., Wei, L., Shi, Z., Han, L., Yuan, H., ... & Sun, C. Z. (2017). Preparation and Evaluation of Cu-Mn-Oxide as High Efficiency Catalyst for CO Oxidation and NO Reduction by CO. The Journal of Physical Chemistry C. 121 (23) 12757–12770., 2017 Линк
356. Sun, J., Ge, C., Yao, X., Zou, W., Hong, X., Tang, C., & Dong, L. (2017). Influence of different impregnation modes on the properties of CuOCeO2/γ-Al2O3 catalysts for NO reduction by CO. Applied Surface Science, 426, 279-286., 2017 Линк
357. Haijun, Z., Kegong, F., Fang, D., Minggui, L., Yuhan, S., & Zhicheng, T. (2017). Textual properties of Cu− Mn mixed oxides and application for methyl formate synthesis from syngas. Journal of Industrial and Engineering Chemistry 54, 117-125., 2017 Линк
358. H. Zhao, X. X. Zhou, L. Y. Pan, M. Wang, H. R. Chen and J. L. Shi RSC Adv., 2017, 7, 20451-20459, 2017
359. Cheng, X., Zhang, X., Zhang, M., Sun, P., Wang, Z., & Ma, C. A simulated rotary reactor for NO x reduction by carbon monoxide over Fe/ZSM-5 catalysts. (2017) Chemical Engineering Journal, 307, 24-40, 2017
360. Guo, Y., Zhao, C., Lin, J., Li, C., & Lu, S. (2017). Facile synthesis of supported copper manganese oxides catalysts for low temperature CO oxidation in confined spaces. Catalysis Communications, 99, 1-5., 2017 Линк
110. Rojas, R.M., Kovacheva, D., Petrov, K.. Synthesis and cation distribution of the spinel cobaltites CuxMyCo3-(x+y)O4 (M = Ni, Zn) obtained by pyrolysis of layered hydroxide nitrate solid solutions. Chemistry of Materials, 11, 11, 1999, ISSN:0897-4756, 3263-3267. ISI IF:8.354
Цитира се в:
361. METÍLICA, CATALÍTICA EM REAÇÕES DE TRANSESTERIFICAÇÃO, and DE SOJA DE ÓLEO. "KAMILA COLOMBO."PhD thesis 2017, 2017 Линк
111. Hadjiivanov , K., Mihaylov, M., Klissurski, D., Stefanov, P., P. N. Abadjieva, E. Vassileva, L. Minchev. Characterization of Ni/SiO2 Catalysts Prepared by Successive Deposition - Reduction of Ni2+ Ions. Journal of Catalysis, 185, 2, Elsevier, 1999, DOI:doi:10.1006/jcat.1999.2521, 314-323. ISI IF:6.921
Цитира се в:
362. A. Wolfbeisser, G. Kovács, S.M. Kozlov, K. Föttinger, J. Bernardic, B. Klötzerd, K.M. Neyman and G. Rupprechter, Surface composition changes of CuNi-ZrO2 catalysts during methane decomposition: An operando NAP-XPS and density functional study, Catal Today, 283 (2017) 134–143, 2017 Линк
363. J. Escobar, M.C. Barrera, A.W. Gutiérrez and J.E. Terrazas, Benzothiophene hydrodesulfurization over NiMo/alumina catalysts modified by citric acid. Effect of addition stage of organic modifier, Fuel Proc. Technol., 156 (2017) 33-42 [ISI]., 2017 Линк
364. E. Zacharaki, P. Beato, R.R. Tiruvalam, K.J. Andersson, H. Fjellvåg and A.O. Sjåstad, From Colloidal Monodisperse Nickel Nanoparticles to Well-Defined Ni/Al2O3 Model Catalysts, Langmuir, 33 (2017) 9836 [ISI]., 2017 Линк
365. R.-X. Yang, L. Xu, S. Wu, K.. Chuang and M.-Y. Wey, Ni/SiO2 core–shell catalysts for catalytic hydrogen production from waste plastics-derived syngas, Int. J. Hydrogen Energy, 42 (2017) 11239 [ISI]., 2017 Линк
366. X. Ning, Y. Lu, H. Fu, H. Wan, Z. Xu and S. Zheng, Template Mediated Ni (II) Dispersion in Mesoporous SiO2 for Preparation of Highly Dispersed Ni Catalysts: Influence of Template Type, ACS Appl. Mater. Interfaces, 9 (2017) 19335 [ISI]., 2017 Линк
page 36/232
367. C. Xu, S.-F. Tang, X. Sun, Y. Sun, G. Li, J. Qi, X. Li and X. Li, Investigation on the cleavage of β-O-4 linkage in dimeric lignin model compound over nickel catalysts supported on ZnO-Al2O3 composite oxides with varying Zn/Al ratios, Catal. Today, 298 (2017) 89 [ISI]., 2017 Линк
368. Z.-Q. Liu, X.-Y. Wei, H.-H. Wu, W.-T. Li, Y.-Y. Zhang, Z.-M. Zong, F.-Y. Ma and J.-M. Liu, Difunctional nickel/microfiber attapulgite modified with an acidic ionic liquid for catalytic hydroconversion of lignite-related model compounds, Fuel, 204 (2017) 236 [ISI]., 2017 Линк
369. Wang, X., Chen, J., Effects of indium on Ni/SiO2 catalytic performance in hydrodeoxygenation of anisole as model bio-oil compound: Suppression of benzene ring hydrogenation and C-C bond hydrogenolysis (2017) Cuihua Xuebao/Chinese Journal of Catalysis, 38 (11), pp. 1818-1830., 2017 Линк
370. P.M. Carraro, A.A. García Blanco, C. Chanquía, K. Sapag, M.I. Oliva and G.A. Eimer, Hydrogen adsorption of nickel-silica materials: Role of the SBA-15 porosity, Microporous Mesoporous Mater., 248 (2017) 62 [ISI]., 2017 Линк
371. Wang, B., Wang, D., Guan, Y., Xu, H., Zhang, L., Wu, P., Nickel/USY Catalyst Derived from a Layered Double Hydroxide/Zeolite Hybrid Structure with a High Hydrogenation Efficiency (2017) ChemCatChem, 9 (24), pp. 4552-4561., 2017 Линк
372. S.D. Foraita, Investigation of Ni/ZrO2 catalysts for the hydrodeoxygenation of microalgae oil, Ph. D. Thesis, Technische Universität München, München, Germany, 2017, 2017 Линк
112. Zhecheva, E. N., Gorova, M. Y., Stoyanova, R. K.. Microstructure of Li (1 + x)Mn(2 -x) O4 spinels obtained from metal- organic precursors. Journal of Materials Chemistry, 9, 7, 1999, ISSN:0959-9428, 1559-1567. ISI IF:6.626
Цитира се в:
373. Mu, Y., Wang, L., Zhao, Y., Liu, M., Zhang, W., Wu, J., ... & Gao, D. (2017). 3D flower-like MnCO3 microcrystals: evolution mechanisms of morphology and enhanced electrochemical performances. Electrochimica Acta, 251, 119-128., 2017 Линк
113. Stefanov, P., Stoychev, D., Stoycheva, M., Gonzalez-Elipe, A.R., Marinova, Ts. XPS, SEM and TEM Characterisation of Stainless Steel 316L Surfaces after Electrochemical Etching and Oxidizing. Surface Interface Analysis, 28, John Wiley & Sons Ltd,Chichester, United Kingdom, 1999, ISSN:01422421, DOI:10.1002/(SICI)1096-9918(199908)28:13.0.CO;2-J, 106-110. ISI IF:1.245
Цитира се в:
374. Kang, Y., et al., Surface treatment of stainless steel by electrolytic oxidation and deposition of titanium complexing ion solution to improve metal-ceramic adhesion, Journal of Adhesion Science and Technology, Volume 31, Issue 23, 2 December 2017, Pages 2571-2580, 2017 Линк
114. Manuilov, N., Nikolov, V., Gentscheva, G., Peshev, P.. Study of some K2W2O7–KGd1−xLnx(WO4)2 systems to be used for flux growth of doped KGd(WO4)2 single crystals. Journal of Crystal Growth, 196, 1, Elsevier, 1999, ISSN:0022-0248, DOI:10.1016/S0022-0248(98)00716-7, 181-184. SJR:0.735, ISI IF:1.492
Цитира се в:
375. Zhu, Z.-J., Sun, Y.-J., Li, J.-F., You, Z.-Y., Wang, Y., Tu, C.-Y. Growth and Raman Characteristics of Large Size KGW Crystal by TSSG Method (2017) Rengong Jingti Xuebao/Journal of Synthetic Crystals, 46 (4), pp. 573-577, 2017 Линк
115. Hadjiivanov , K., H. Knözinger. FTIR Spectroscopic Evidence of Formation of Geminal Dinitrogen Species during the Low-temperature N2 Adsorption on NaY Zeolites. Catalysis Letters, 58, 1, Springer US, 1999,
page 37/232
ISSN:1011-372X, DOI:10.1023/A:1019040825491, 21-26. ISI IF:2.307
Цитира се в:
376. J. Lang, J. Mohrbach, S. Dillinger, J. Hewer and G. Niedner-Schatteburg, Vibrational blue shift of coordinated N 2 in [Fe 3 O (OAc) 6 (N 2) n]+:“non-classical” dinitrogen complexes, Chem. Commun., 53 (2017) 420 [ISI]., 2017 Линк
377. A.N. Dobrotvorskaia, O.S. Pestsov and A.A. Tsyganenko, Lateral Interaction between Molecules Adsorbed on the Surfaces of Non-Metals, Top. Catal., 60 (2017) 1506 [ISI]., 2017 Линк
116. Hadjiivanov , K., H. Knözinger, B. Tsyntsarski, L. Dimitrov. Effect of Water on the Reduction of NOx with Propane on Fe–ZSM-5. An FTIR Mechanistic Study. Catalysis Letters, 62, 1, Springer US, 1999, ISSN:1011-372X, DOI:10.1023/A:1019034619440, 35-40. ISI IF:2.307
Цитира се в:
378. X. Cheng, X. Zhang, M. Zhang, P. Sun, Z. Wang, C. Ma, A simulated rotary reactor for NOx reduction by carbon monoxide over Fe/ZSM-5 catalysts, Chem. Eng. J., 307 (2017) 24-40 [ISI]., 2017 Линк
379. R. Pérez Vélez, U. Bentrup, W. Grünert and A. Brückner, The Role of NO2 in the Fast NH3-SCR of NOx: A Combined In Situ FTIR and EPR Spectroscopic Study, Top. Catal., 60 (2017) 1641 [ISI]., 2017 Линк
380. 1. H. Niu, K. Li, B. Chu, W. Su and J. Li, Heterogeneous Reactions between Toluene and NO2 on Mineral Particles under Simulated Atmospheric Conditions, Environ. Sci. Technol., 51 (2017) 9596 [ISI]., 2017 Линк
381. W. Liu, X. He, S. Pang and Y. Zhang, Effect of relative humidity on O3 and NO2 oxidation of SO2 on α-Al2O3 particles, Atmos. Environ., 167 (2017) 245 [ISI]., 2017 Линк
382. I. Chadli, Synthèse et caractérisation des sels précurseurs par la méthode solgel, Ph. D. Thesis, Université Mohamed Khider, Biskra, Algeria, 2017 [GS]., 2017
117. Hadjiivanov , K., B.M. Reddy, H. Knözinger. FTIR study of low-temperature adsorption and co-adsorption of 12CO and 13CO on a TiO2–SiO2 mixed oxide. Applied Catalysis A: General, 188, 1-2, Elsevier, 1999, DOI:10.1016/S0926-860X(99)00234-3, 355-360. ISI IF:3.942
Цитира се в:
383. C. Yang and C. Wöll, Adv. Phys., 2 (2017) 373 [ISI]., 2017
384. Y. Wang and C. Wöll, IR spectroscopic investigations of chemical and photochemical reactions on metal oxides: bridging the materials gap, Chem. Soc. Rev, 46 (2017) 1875 [ISI]., 2017 Линк
118. Hadjiivanov , K., H. Knözinger. FTIR Study of the Low-temperature Adsorption and Co-adsorption of CO and N2 on NaY Zeolite: Evidence of Simultaneous Coordination of Two Molecules to One Na+ Site. Chemical Physics Letters, 303, 5-6, Elsevier, 1999, DOI:10.1016/S0009-2614(99)00229-8, 513-520. ISI IF:1.897
Цитира се в:
385. A. Rybakov, A. Larin and D. Vercauteren, CO diffusion as a re-orientation mechanism in the NaY zeolite, Phys. Chem. Chem. Phys., 19 (2017) 20930 [ISI], 2017 Линк
119. P. Concepcion, Hadjiivanov , K., H. Knözinger. Low-temperature CO Adsorption on V-containing Aluminophosphates: An FTIR Study. Journal of Catalysis, 184, 1, Elsevier, 1999, DOI:10.1006/jcat.1999.2430, 172-179. ISI IF:6.921
page 38/232
Цитира се в:
386. J. Strunk, M.A. Bañares and I.E. Wachs, Vibrational spectroscopy of oxide overlayers, Top. Catal., 60 (2017) 1577 [ISI]., 2017 Линк
120. Hadjiivanov , K., L. Dimitrov. IR spectroscopy study of CO and NOx adsorption on a Cu/Zr-HMS catalyst. Microporous and Mesoporous Materials, 27, 1, Elsevier, 1999, DOI:10.1016/S1387-1811(98)00229-7, 49-56. ISI IF:3.453
Цитира се в:
387. S. Li, K. Li, J. Hao, P. Ning, L. Tang and C. Wang, Simultaneous Adsorption/Oxidation of NO and SO2 over Al–Cu Composite Metal Oxides Supported on MCM-41 at Low Temperature, J. Chem. Eng. Japan, 50 (2017) 376 [ISI]., 2017 Линк
121. Hadjiivanov , K., P. Massiani, H. Knözinger. Low Temperature CO and 15N2 Adsorption and Co-adsorption on Alkali Cation Exchanged EMT Zeolites: an FTIR Study. Physical Chemistry Chemical Physics, 1, Royal Society of Chemistry, 1999, DOI:10.1039/A904171K, 3831-3838. ISI IF:4.493
Цитира се в:
388. J.N. Dawoud, "Interaction energies and structures of the Li+⋅(CO)nLi+⋅(CO)n (n = = 1–3) complexes", J. Chem. Sci., 129 (2017) 543-552 [ISI]., 2017 Линк
389. A.M. Hernández-Giménez, J. Ruiz-Martínez, B. Puértolas, J. Pérez-Ramírez, P.C.A. Bruijnincx and B.M. Weckhuysen, "Operando Spectroscopy of the Gas-Phase Aldol Condensation of Propanal over Solid Base Catalysts", Top. Catal., 60 (2017) 1522 [ISI]., 2017 Линк
2000
122. Spassova I., Mehandjiev D.. Mechanism of NO conversion over a coprecipitated CuO-MnOx spinel-like catalyst.. Reaction Kinetics and Catalysis Letters, 69, 2, 2000, 231-237. ISI IF:1.108
Цитира се в:
390. Liu, K., Yu, Q., Liu, J., Wang, K., Han, Z., Xuan, Y., & Qin, Q. (2017). Selection of catalytically active elements for removing NO and CO from flue gas at low temperatures. New Journal of Chemistry, 41(22), 13993-13999., 2017 Линк
123. Balarew, C, Rabadjieva, D, Tepavitcharova, S. Improved Treatment of Waste Brines. Proceedings of the 8th World Salt Symposium, 1, Elsevier, 2000, ISBN:0 444 500 650, 551-554
Цитира се в:
391. Hanif Amrulloh , Wasinton Simanjuntak , Rudy T M Situmeang, Sintesis Mg(OH)2 dari Bittern Menggunakan Metode Elektrokimia, ALKIMIA, 1 (1) (2017) 10-16, 2017 Линк
124. Stoychev, D., Ikonomov, J., Robinson K.,, Stefanov, P., Stoycheva, M., Marinova Ts.. Surface modification of porous zirconia layers by electrochemical deposition of small amounts of Cu or Co and Co+Cu. Surface and Interface Analysis,, 30, 1, Wiley, 2000, ISSN:01422421, DOI:10.1002/1096-9918(200008)30:13.0.CO;2-J, 69-73. ISI IF:1.132
Цитира се в:
392. Hamid, Z.A et al., Performance of Ni-Cu-ZrO2 nanocomposite coatings fabricated by electrodeposition technique, Anti-Corrosion Methods and Materials, Volume 64, Issue 3, 2017, Pages 315-325, 2017 Линк
393. Song, X., et al., Solvent-free oxidation of cyclohexane by oxygen over Al-Cu-Co alloys: influence of the phase structure and electrical conductivity on catalytic activity, New
page 39/232
Journal of Chemistry, Volume 41, Issue 10, 2017, Pages 4031-4039, 2017 Линк
125. Stefanov, P., Stoychev, D., Stoycheva, M., Ikonomov, J., Marinova Ts.. XPS and SEM characterization of zirconia thin films prepared by electrochemical deposition. Surface and Interface Analysis, 30, 1, Wiley, 2000, ISSN:0142-2421, 628-631. ISI IF:1.132
Цитира се в:
394. Kang, Y., et al., Characterization of stainless steel surface processed using electrolytic oxidation and titanium complex ion solution, Applied Surface ScienceVolume 415, 1 September 2017, Pages 161-165, 2017 Линк
126. Stoyanova, R., Zhecheva, E., Gorova, M.. EPR evidence on short-range Co/Mn order in LiCoMnO4 spinels. Journal of Materials Chemistry, 10, 6, RSC Publisihing, 2000, DOI:10.1039/A909066E, 1377-1381. ISI IF:6.623
Цитира се в:
395. Mukai, K., & Uyama, T. (2017). Toward Positive Electrode Materials with High-Energy Density: Electrochemical and Structural Studies on LiCo x Mn2–x O4 with 0≤ x≤ 1. ACS Omega, 2(8), 5142-5149., 2017 Линк
127. Carvajal, J.J., Nikolov, V., Sole, R., Gavalda, J., Massons, J., Rico, M., Zaldo, C., Aguilo, M., Diaz, F.. Enhancement of the Erbium Concentration in RbTiOPO4 by Codoping with Niobium. Chemistry of Materials, 12, 10, American Chemical Society, 2000, ISSN:1520-5002, DOI:10.1021/cm000305c, 3171-3180. SJR:3.274, ISI IF:8.354
Цитира се в:
396. Yuan, F., Sun, S., Huang, Y., Zhang, L., Lin, Z., Wang, G. Improvement of second-harmonic generation induced by structural distortions in Nb doped YCa9(VO4)7 crystals (2017) Journal of Alloys and Compounds, 726, pp. 860-865, 2017 Линк
397. Li, Z., Chen, Y., Zhu, P., Ji, N., Duan, X., Jiang, H. Electronic structure and properties of RbTiOPO4:Ta crystals (2017) RSC Advances, 7 (84), pp. 53111-53116, 2017 Линк
128. Stoyanova, R., Gorova, M., Zhecheva, E.. EPR of Mn 4+ in spinels Li 1+ x Mn 2− x O 4 with 0≤ x≤ 0.1. Journal of Physics and Chemistry of Solids, 61, 4, Elsevier BV, 2000, ISSN:0022-3697, DOI:10.1016/S0022-3697(99)00244-9, 609-614. SJR:0.632, ISI IF:1.853
Цитира се в:
398. Barudžija, T., Cvjetićanin, N., Bajuk-Bogdanović, D., Mojović, M., & Mitrić, M. (2017). Vibrational and electron paramagnetic resonance spectroscopic studies of β-MnO2 and α-KxMnO2 nanorods. Journal of Alloys and Compounds, 728, 259-270., 2017 Линк
399. Barudžij, Tanja S. (2017) PhD Thesis "ISPITIVANJE STRUKTURNIH I MAGNETNIH SVOJSTAVA RAZLIČITIH POLIMORFA MANGAN−DIOKSIDA", University of Belgrade, 2017 Линк
129. Alcantara, R., Fernandes-Madrigal, F. J., Lavela, P., Tirado, J. L., Jimenez-Mateos J. M., Gomez De Salazar, C., Stoyanova, R., Zhecheva, E.. Characterization of mesocarbon microbeads (MCMB) as active electrode material in lithium and sodium cells. Carbon, 38, 7, 2000, ISSN:0008-6223, 1031-1041. ISI IF:6.106
Цитира се в:
400. Dahbi, M., Kiso, M., Kubota, K., Horiba, T., Chafik, T., Hida, K., ... & Komaba, S. (2017). Synthesis of hard carbon from argan shells for Na-ion batteries. J. Mater. Chem. A, 2017, 5, 9917-9928., 2017 Линк
401. Yun, B. N., Du, H. L., Hwang, J. Y., Jung, H. G., & Sun, Y. K. (2017). Improved
page 40/232
electrochemical performance of boron-doped carbon-coated lithium titanate as an anode material for sodium-ion batteries. Journal of Materials Chemistry A, 5(6), 2802-2810., 2017 Линк
402. Chen, Z., Wang, T., Zhang, M., & Cao, G. (2017). A Phase‐Separation Route to Synthesize Porous CNTs with Excellent Stability for Na+ Storage. Small., Volume 13, Issue 22 2017, 1604045., 2017 Линк
403. Xia, X., Wang, Q., Zhu, Q., Xie, J., Wang, J., Zhuang, D., ... & Zhao, X. (2017). Improved Na-storage cycling of amorphous-carbon-sheathed Ni 3 S 2 arrays and investigation by in situ TEM characterization. Materials Today Energy, 5, 99-106., 2017 Линк
404. Zhang, Y., Zhang, Y., Zhang, D., & Sun, L. (2017). Urchin-like NiCo 2 O 4 nanoneedles grown on mesocarbon microbeads with synergistic electrochemical properties as electrodes for symmetric supercapacitors. Dalton Transactions, 46(29), 9457-9465., 2017 Линк
405. Yuan, C., Zhu, Y., Zhao, P., Yu, B., Li, Q., & Wang, C. (2017). Enhanced electrochemical performance of MCMBs‐based anodes by air oxidation for sodium‐ion batteries. Volume 4, Issue 10, 2017, Pages 2583–2592., 2017 Линк
406. Dey, M. K., & Satpati, A. K. (2017). Functionalised carbon nano spheres modified electrode for simultaneous determination of dopamine and uric acid. Journal of Electroanalytical Chemistry, 787, 95-102., 2017 Линк
407. Zhao, D., Ru, Q., Hu, S., & Hou, X. (2017). Design and synthesis of a novel 3D hierarchical mesocarbon microbead as anodes for lithium ion batteries and sodium ion batteries. Ionics, 23(4), 897-905., 2017 Линк
408. Zhang Yingjie Zhu Ziyi Dong Peng Zhao Shaobo Zhang Yanjia Yang Chengyun Yang Chengyi Wei Keyi Li Xue, Research Progress on Carbon - based Anode Materials for Sodium Ion Batteries, Chemical Progress, 11, 2017., 2017 Линк
409. Wu, C.-C., Zhang, X.-F., Shi, Z.-Q. "Preparation and electrochemical properties of expanded mesocarbon microbeads/SnO2composite". Journal of Tianjin Polytechnic University, 36 (4), pp. 43-47, 2017, 2017 Линк
410. Cabello, M., Chyrka, T., Klee, R., Aragon, M.J., Bai, X., Lavela, P., Vasylchenko, G.M., Alcántara, R., Tirado, J.L., Ortiz, G.F. "Treasure Na-ion anode from trash coke by adept electrolyte selection". Journal of Power Sources, 347, pp. 127-135, 2017, 2017 Линк
411. Cui, J., Yao, S., & Kim, J. K. Recent progress in rational design of anode materials for high-performance Na-ion batteries. Energy Storage Materials. (2017) 7, 64–114., 2017 Линк
130. Hadjiivanov, K. Identification of Neutral and Charged Surface NOx Species by IR Spectroscopy. Catal. Rev. - Sci. Eng., 42, Taylor & Francic, 2000, DOI:10.1081/CR-100100260, 71-144. ISI IF:8.417
Цитира се в:
412. X. Cheng, X. Zhang, M. Zhang, P. Sun, Z. Wang, C. Ma, A simulated rotary reactor for NOx reduction by carbon monoxide over Fe/ZSM-5 catalysts, Chem. Eng. J., 307 (2017) 24-40. [ISI], 2017 Линк
413. W. Cui, X. Li, C. Gao, F. Dong and X. Chen, Ternary Ag/AgCl-(BiO)2CO3 composites as high-performance visible-light plasmonic photocatalysts, Catal. Today, 284 (2017) 67-76., 2017 Линк
414. F. Gunnarsson, J.A. Pihl, T.J. Toops, M. Skoglundh and H. Härelind, Lean NOx reduction over Ag/alumina catalysts via ethanol-SCR using ethanol/gasoline blends, Appl. Catal. B, 202 (2017) 42-50., 2017 Линк
415. L. Huang, X. Hu, S. Yuan, H. Li, T. Yan, L. Shi and D. Zhang, Photocatalytic preparation of nanostructured MnO2-(Co3O4)/TiO2 hybrids: The formation mechanism and catalytic application in SCR deNOx reaction, Appl. Catal. B, 203 (2017) 778-788., 2017 Линк
page 41/232
416. E.C. Mattson, D.J. Michalak, J.F. Veyan and Y.J. Chabal, Cobalt and iron segregation and nitride formation from nitrogen plasma treatment of CoFeB surfaces, J. Chem. Phys., 146 (2017) 052805., 2017 Линк
417. L. Wang, X. Cheng, Z. Wang, C. Ma and Y. Qin, Investigation on Fe-Co binary metal oxides supported on activated semi-coke for NO reduction by CO, Appl. Catal. B, 201 (2017) 636-651., 2017 Линк
418. Z. Zhang, C. Shi, Z. Bai, M. Li, B. Chen and M. Crocker, Low-temperature H2-plasma-assisted NOx storage and reduction over a combined Pt/Ba/Al and LaMnFe catalyst , Catal. Sci. Technol., 7 (2017)145-158., 2017 Линк
419. F. Li, J. Xie, D. Fang, F. He, K. Qi and P. Gong, "Mechanistic study of Ce-modified MnOx/TiO2 catalysts with high NH3-SCR performance and SO2 resistance at low temperatures" Res. Chem. Intermed., 43 (2017) 5413–5432., 2017 Линк
420. M. Donaldson, Nitrous Acid Cycling and Reaction on Soil Surfaces, Ph. D. Thesis, Indiana University, USA, 2017, 2017
421. L. Wang, X. Cheng, Z. Wang, X. Zhang and C. Ma, "NO reduction by CO over iron-based catalysts supported by activated semi-coke" Can. J. Chem. Eng., 95 (2017) 449, 2017 Линк
422. X. Dong, W. Zhang, W. Cui, Y. Sun, H. Huang, Z. Wu and F. Dong, "Pt quantum dots deposited on N-doped (BiO)2CO3: enhanced visible light photocatalytic NO removal and reaction pathway", Catal. Sci. Technol., 7 (2017) 1324, 2017 Линк
423. Y. Li, Y. Li, Q. Shi, M. Qiu, S. Zhan, "Novel hollow microspheres MnxCo3−xO4 (x = 1, 2) with remarkable performance for low-temperature selective catalytic reduction of NO with NH3" J. Sol-Gel Sci. Technol., 81 (2017) 576, 2017 Линк
424. Z. Fan, J.-W. Shi, C. Gao, G. Gao, B. Wang and C. Niu, "Rationally Designed Porous MnOx–FeOx Nanoneedles for Low-Temperature Selective Catalytic Reduction of NOx by NH3" ACS Appl. Mater. Interfaces, 9 (2017) 16117, 2017 Линк
425. L. Wang, Z. Zhong, L. Zhu and H. Yang, "Alkali metal(potassium)poisoning mechanism of CeFeOx catalysts for selective catalytic reduction of Nox: Chem. Ind Eng. Progr., 36 (2017) 4064, 2017 Линк
426. Z. Lian, F. Liu, W. Shan and H. He, "Improvement of Nb Doping on SO2 Resistance of VOx/CeO2 Catalyst for the Selective Catalytic Reduction of NOx with NH3" J. Phys. Chem. C, 121 (2017) 7803, 2017 Линк
427. J. Yoon, H. Chang, S. Lee, Y. Hwang, D. Hong, S. Lee, J. Lee, S. Jang, T. Yoon, K. Kwac, Y. Jung, R. Pillai, F. Faucher, A. Vimont, M. Daturi, G. Férey, C. Serre, G. Maurin, Y. Bae and J. Chang, Selective Nitrogen Capture by Porous Hybrid Materials Containing Accessible Transition Metal Ion Sites, Nature Mater., 16 (2017) 526 (SI) [www.nature.com]., 2017 Линк
428. L. Xu, C. Wang, X. Zhang, D. Guo, Q. Pan, G. Zhang and S. Wang, "NOx sensitivity of conductometric In(OH)3 sensors operated at room temperature and transition from p- to n- type conduction" Sensors Actuators B, 245 (2017) 533, 2017 Линк
429. H. Wang, W. He, X. Dong, G. Jiang, Y. Zhang, Y. Sun, F. Dong, In situ DRIFT investigation on the photocatalytic NO oxidation mechanism with thermally exfoliated porous g-C3N4 nanosheets, RSC Adv. 7 (2017) 19280-19287., 2017 Линк
430. Z. Yan, Y. Qu, L. Liu, X. Ge, J. Yang, L. Wei, T. Yang and X. Wang, "Promotional effect of rare earth-doped manganese oxides supported on activated semi-coke for selective catalytic reduction of NO with NH3" Environ. Sci. Polut. Res., 24(2017) 24473–24484., 2017 Линк
431. V.A. Matyshak, A.N. Il’ichev, O.N. Sil’chenkova, V.A. Sadykov and V.N. Korchak, "Spectrokinetic study of the mechanism of NOx reduction with propylene over ZrO2 in excess oxygen" Kinet. Catal., 58 (2017) 198, 2017 Линк
432. H. Niu, K. Li, B. Chu, W. Su and J. Li, "Heterogeneous Reactions between Toluene and NO2
page 42/232
on Mineral Particles under Simulated Atmospheric Conditions" Environ. Sci. Technol., 51 (2017) 9596, 2017 Линк
433. Y. Peng, D. Wang, B. Li, C. Wang, J. Li, J.C. Crittenden and J. Hao, "Impacts of Pb and SO2 Poisoning on CeO2–WO3/TiO2–SiO2 SCR Catalyst" Environ. Sci. Technol., 51 (2017) 11943, 2017 Линк
434. Y. Geng, X. Chen, S. Yang, F. Liu and W. Shan, "Promotional Effects of Ti on a CeO2–MoO3 Catalyst for the Selective Catalytic Reduction of NOx with NH3" ACS Appl. Mater. Interfaces, 9 (2017) 16951, 2017 Линк
435. R. Pérez Vélez, U. Bentrup, W. Grünert and A. Brückner, "The Role of NO2 in the Fast NH3-SCR of NOx: A Combined In Situ FTIR and EPR Spectroscopic Study" Top. Catal., 19-20 (2017) 1641–1652, 2017 Линк
436. X. Yao, T. Kong, L. Chen, S. Ding, F. Yang, L. Dong, Enhanced low-temperature NH3-SCR performance of MnOx/CeO2 catalysts by optimal solvent effect, Appl. Surf. Sci., 420 (2017) 407-415., 2017 Линк
437. Z. Qi, H. Dong, H. Yu, M. Zhao and H. Yu, "In-situ electrochemical NOx removal process for the lean-burn engine exhaust based on carbon black gas diffusion electrode" J. Cleaner Prod., 151 (2017) 465, 2017 Линк
438. M.H. Rosnes, D. Sheptyakov, A. Franz, M. Frontzek, P.D.C. Dietzel and P.A. Georgiev, "On the elusive nature of oxygen binding at coordinatively unsaturated 3d transition metal centers in metal–organic frameworks " Phys. Chem. Chem. Phys., 2017, 19, 26346-26357., 2017 Линк
439. S. Roso, D. Degler, E. Llobet, N. Barsan and A. Urakawa, "Temperature-Dependent NO2 Sensing Mechanisms over Indium Oxide" ACS Sens., 2 (2017) 1272, 2017 Линк
440. L.-H. Guo, I. Guo, D.-Y. Zhao, Z.-N. Gao, Y. Tian, T. Ding, J. Zhang, L.-R. Zheng and X.-G. Li, "Oxidizing, trapping and releasing NOx over model manganese oxides in alternative lean-burn/fuel-rich atmospheres at low temperatures" Catal. Today, 297(2017) 27., 2017 Линк
441. M. Haneda, Y. Kawaguchi and A. Towata, "CoOx–FeOx composite oxide prepared by hydrothermal method as a highly active catalyst for low-temperature CO oxidation" J. Ceram. Soc. Japan, 125 (2017) 135, 2017 Линк
442. Y.S. Ryou, J. Lee, S.J. Cho, H. Lee, C.H. Kim, D.H. Kim, "Activation of Pd/SSZ-13 catalyst by hydrothermal aging treatment in passive NO adsorption performance at low temperature for cold start application" Appl. Catal. B, 212 (2017) 140, 2017 Линк
443. H. Xu, X. Feng, S. Liu, Y. Wang, M. Sun, J. Wang, Y. Chen, Promotional effects of Titanium additive on the surface properties, active sites and catalytic activity of W/CeZrOx monolithic catalyst for the selective catalytic reduction of NOx with NH3, Appl. Surf. Sci., 419 (2017) 697-707., 2017 Линк
444. W. Hu, Y. Zhang, S. Liu, C. Zheng, X. Gao, I. Nova and E. Tronconi, "Improvement in activity and alkali resistance of a novel V-Ce(SO4)2/Ti catalyst for selective catalytic reduction of NO with NH3" Appl. Catal. B, 206 (2017) 449, 2017 Линк
445. X. Yao, K. Ma, W. Zou, S. He, J. An, F. Yang and L. Dong, "Influence of preparation methods on the physicochemical properties and catalytic performance of MnOx-CeO2 catalysts for NH3-SCR at low temperature" Chin. J. Catal., 38 (2017) 146, 2017 Линк
446. L. Song, R. Zhang, S. Zang, H. He, Y. Su, W. Qiu and X. Sun, "Activity of Selective Catalytic Reduction of NO over V2O5/TiO2 Catalysts Preferentially Exposed Anatase {001} and {101} Facets" Catal. Lett., 147 (2017) 934, 2017 Линк
447. B. Jia, J. Guo, S. Shu, N. Fang, J. Li and Y. Chu, "Effects of different Zr/Ti ratios on NH3–SCR over MnOx/ZryTi1-yO2: Characterization and reaction mechanism" Mol. Catal., 443 (2017) 25, 2017 Линк
448. X. Yao, R. Zhao, L. Chen, J. Du, C. Tao, F. Yang and L. Dong, "Selective catalytic reduction of
page 43/232
NOx by NH3 over CeO2 supported on TiO2: Comparison of anatase, brookite, and rutile" Appl. Catal. B, 208 (2017) 82, 2017 Линк
449. Z. Jiang, Z. Zhu, W. Guo, M. Chen and W. Shangguan, "Surface sodium functionalization of ordered mesoporous Co3O4 controls the enhanced simultaneous catalytic removal of soot and NOx" J. Mater. Chem. A, 5 (2017) 20696, 2017 Линк
450. P. Concepcion, M. Boronat, R. Millán, M. Moliner and A. Corma, "Identification of Distinct Copper Species in Cu-CHA Samples Using NO as Probe Molecule. A Combined IR Spectroscopic and DFT Study" Top. Catal., 19-20 (2017) 1653–1663., 2017 Линк
451. S. Jones, Y. Ji, A. Bueno-Lopez, Y. Song and M. Crocker, "CeO2-M2O3 Passive NOx Adsorbers for Cold Start Applications" Emission Control Sci. Technol., 3 (2017) 59, 2017 Линк
452. C.M. Kalamaras, G.G. Olympiou, V.I. Pârvulescu, B. Cojocaru and A.M. Efstathiou, "Selective catalytic reduction of NO by H2/C3H6 over Pt/Ce1-xZrxO2-δ: The synergy effect studied by transient techniques" Appl. Catal. B, 206 (2017) 308, 2017 Линк
453. G. Gao, J.-W. Shi, C. Liu, C. Gao, Z. Fan, C. Niu, Mn/CeO2 catalysts for SCR of NOx with NH3: comparative study on the effect of supports on low-temperature catalytic activity, Appl. Surf. Sci., 411 (2017) 338-346., 2017 Линк
454. Y. You, H. Chang, T. Zhu, T. Zhang, X. Li and J. Li, "The poisoning effects of phosphorus on CeO2-MoO3/TiO2 DeNOx catalysts: NH3-SCR activity and the formation of N2O" Mol. Catal., 439 (2017) 15, 2017 Линк
455. K. Khivantsev, A. Vityuk, H.A. Aleksandrov, G.N. Vayssilov, D.A. Blom, O.S. Alexeev and M.D. Amiridis, "Synthesis, Modeling, and Catalytic Properties of HY Zeolite-Supported Rhodium Dinitrosyl Complexes" ACS Catal., 7 (2017) 5965, 2017 Линк
456. J.C. Yu, J. Lasek, V. Nguyen, Y. Yu, J.C.S. Wu, "Visualizing reaction pathway for the photo-transformation of NO2 and N2 into NO over WO3 photocatalyst" Res. Chem. Intermed., 43 (2017) 7159, 2017 Линк
457. H. Zhang, Y. Zou and Y. Peng, "Influence of sulfation on CeO2-ZrO2 catalysts for NO reduction with NH3" Chin. J. Catal., 38 (2017) 160, 2017 Линк
458. L. Zhang, T. Du, H. Qu, B. Chi and Q. Zhon, "Synthesis of Fe-ZSM-5Ce/mesoporous-silica and its enhanced activity by sequential reaction process for NH3-SCR" Chem. Eng. J., 313 (2017) 702, 2017 Линк
459. L. Zhang, J. Sun, Y. Xiong, X. Zeng, C. Tang and L. Dong, "Catalytic performance of highly dispersed WO3 loaded on CeO2 in the selective catalytic reduction of NO by NH3" Chin. J. Catal., 38 (2017) 1749, 2017 Линк
460. R. Zhang, C. Wang, K. Li, X. Sun, P. Ning, L. Tang and Y. Liu, "Influence of Ca doping and calcination temperature on selective catalytic oxidation of NO over Mn–Ca–Ox–(CO3)y catalysts" New J. Chem., 41 (2017) 11742, 2017 Линк
461. Z. Song, Q. Zhang, Y. Ma, Q. Liu, P. Ning, X. Liu, J. Wang, B. Zhao, J. Huang and Z. Huang, "Mechanism-dependent on the different CeO2 supports of phosphotungstic acid modification CeO2 catalysts for the selective catalytic reduction of NO with NH3" J. Taiwan Inst. Chem. Eng., 71 (2017) 277, 2017 Линк
462. M. Kim, S. Lee, I. Ryu, S. Moon, M. Jeon, C.H. Ko and S.G. Jeon, "Understanding the Effect of NO Adsorption on Potassium-Promoted Co3O4 for N2O Decomposition" Catal. Lett., 147 (2017) 2886–2892, 2017 Линк
463. M. Barreau, " Étude de la réduction catalytique sélective (SCR) des NOx par un mélange éthanol-ammoniac", Ph. D. Thesis, Université de Poitiers, France, 2017 [GB]., 2017
464. J. Balbuena, Preparacion de nuevos materiales fotocatalizadores para la descontaminacion de gases NOx, Ph. D. Thesis, Universidad de Cordoba, Cordoba, Spain, 2017 [GB]., 2017 Линк
page 44/232
465. A. Bellmann, Mechanistische Untersuchungen der selektiven katalytischen Reduktion (SCR) von Stickoxiden mit Methan an Co-ZSM-5-Katalysatoren, Ph. D. Thesis, Universität Rostock, Rostock, Germany, 2017 [GS]., 2017
466. Z. Song, L. Yin, Q. Zhang, P. Ning, Y. Duan, J. Wang, X. Liu, K. Long and Z. Huang, "Relationship between the WO3 states and reaction pathway over CeO2-ZrO2-WO3 catalysts for selective catalytic reduction of NO with NH3" Mol. Catal., 437 (2017) 95, 2017 Линк
467. S.R. Casares, Synthesis and Gas Sensing Properties of Single Crystalline Metal-Oxide Nanostructures, Ph. D. Thesis, Univeritat Rovira i Virgili, Tarragona, Spain, 2017 [GS]., 2017 Линк
468. P. Kozyra, Mechanizm aktywacji wybranych cząsteczek (etynu, etenu, metanalu, benzenu, NO i H2) na centrach kationowych w zeolicie ZSM-5 – modelowanie molekularne, Ph. D. Thesis, Uniwersytet Jagiellonski w Krakowie, Krakow, Poland, 2017, 2017 Линк
469. A.D. Boese, Theorie und Berechnung intermolekularer Wechselwirkungen, Habilitationsschrift, Universität Potsdam, Germany, 2017 [GS]., 2017
470. A. Daniel, Theorie und Berechnung intermolekularer Wechselwirkungen, Habilitationsschrift, Universität Potsdam, Germany, 2017, 2017
471. H. Zhao, X.X. Zhou, L.Y. Pan, M. Wang, H.R. Chen and J.L. Shiac, "Facile synthesis of spinel Cu1.5Mn1.5O4 microspheres with high activity for the catalytic combustion of diesel soot " RSC Adv., 7 (2017) 20451, 2017 Линк
472. V. Fuentes, Catalizadores Cu-perovskita para la elaminicion de NOx procedente de motores diesel, Ph. D. Thesis, Universidad de Alicante, Alicante, Spain, 2017 [GS]., 2017
473. J. Strunk, M.A. Bañares and I.E. Wachs, "Vibrational Spectroscopy of Oxide Overlayers" Top. Catal., (60) 19-20 (2017) 1577–1617, 2017 Линк
474. A. Kharchenko, Properties of copper species stabilized in zeolite nanocrystals, Ph. D. Thesis, University of Normandy, Caen, France, 2017 [GS]., 2017
475. I. Castellanos and O. Marie, An operando FT-IR study of the NOx SCR over Co-HFER and Fe-HFER using acetylene as a reducing agent, Catal. Today, 283 (2017) 54-65., 2017 Линк
476. K. Tan, S. Zuluaga, H. Wang, P. Canepa, K. Soliman, J. Cure, J. Li, T. Thonhauser and Y.J. Chabal, "Interaction of Acid Gases SO2 and NO2 with Coordinatively Unsaturated Metal Organic Frameworks: M-MOF-74 (M = Zn, Mg, Ni, Co)" Chem. Mater., 29 (2017) 4227, 2017 Линк
477. H. Zhou, K. Li, B. Zhao, W. Deng, Y. Su and F. Zhong, "Surface properties and reactivity of Fe/Al2O3/cordierite catalysts for NO reduction by C2H6: Effects of calcination temperature" Chem. Eng. J., 326 (2017) 737, 2017 Линк
478. F. Fengqi and M. Ming, Calcination temperature of CuO / K 2 CO.'S . 3 / Ti02 2 NO catalyst x affect storage reduction performance, Chem. Ind. Eng., 34 (2017) 55 [ISI]., 2017 Линк
479. C.P. Theologides, G.G. Olympiou, P.G. Savva, K. Kapnisis, A. Anayiotos and C.N. Costa, "Mechanistic aspects (SSITKA-DRIFTS) of the catalytic denitrification of water with hydrogen on Pd-Cu supported catalysts" Appl. Catal. B, 205 (2017) 443, 2017 Линк
480. M. Kurt, Z. Say, K.E. Ercan, E.I. Vovk, C.H. Kim and E. Ozensoy, Sulfur Poisoning and Regeneration Behavior of Perovskite-Based NO Oxidation Catalysts, Top. Catal., 60 (2017) 40-51., 2017 Линк
481. L. Chen, D. Schwarzer, V.B. Verma, M.J. Stevens, F. Marsili, R.P. Mirin, S.W. Nam and A.M. Wodtke, Mid-infrared Laser-Induced Fluorescence with Nanosecond Time Resolution Using a Superconducting Nanowire Single-Photon Detector: New Technology for Molecular Science, Acc. Chem. Res., 50(6) (2017) 1400–1409, 2017 Линк
482. Y. Zha, Propulsion Materials Research and Development Introduction, in Propulsion
page 45/232
Materials, U.S. Department of Energy, 2017, p. 71 [Google]., 2017 Линк
483. K. Ueda, J. Ohyama and A. Satsuma, "Investigation of Reaction Mechanism of NO–C3H6–CO–O2 Reaction over NiFe2O4 Catalyst" ACS Omega, 2 (2017) 3135, 2017 Линк
484. T.H. Vuong, Structure-reactivity relationships in modified VxOy/CeO2 catalysts for selective catalytic reduction of NOx, Ph. D. Thesis, Universität Rostock, Rostock, Grrmany, 2017, 2017 Линк
485. X. Li, Study on Poisoning Mechanism and Recycling Technology of Used and Denitrification Catalysts (废旧脱硝催化剂中毒机制与再生技术研究), Ph. D. Thesis, Tsinghua
University, Beijing, China, 2017, 2017
486. R.J. Chimentão, B.C. Miranda, J. Szanyi, C. Sepulveda, J.B.O. Santos, J.V.S. Correa, J. Llorca, F. Medina, "Sources of deactivation during glycerol conversion on Ni/γ-Al2O3", Mol. Catal., 435 (2017) 49, 2017 Линк
487. L. Liu, C. Zheng and X. Gao, "Density Functional Theory Study on the Adsorption of NO on
Mn2 O3 (110) Surface | [NO在Mn2 O3 (110)表面吸附的密度泛函理论研究]", Chin. J.
Mol. Catal., 31 (2017) 544 [ISI], 2017 Линк
488. P.A. Kumar, Y.E. Jeong and H.P. Ha, "Low temperature NH3-SCR activity enhancement of antimony promoted vanadia-ceria catalyst" Catal Today, 293-294 (2017) 61, 2017 Линк
489. W. Cui, J. Li, W. Cen, Y. Sun, S.C. Lee and F. Dong, "Steering the interlayer energy barrier and charge flow via bioriented transportation channels in g-C3N4: Enhanced photocatalysis and reaction mechanism" J. Catal., 352 (2017) 351, 2017 Линк
490. W. Cui, J. Li, F. Dong, Y. Sun, G. Jiang, W. Cen, S.C. Lee and Z. Wu, "Highly Efficient Performance and Conversion Pathway of Photocatalytic NO Oxidation on SrO-ClustersAmorphous Carbon Nitride", Environ. Sci. Technol., 51 (2017) 10682, 2017 Линк
491. X. Li, X. Li, J. Li and J. Hao, "High calcium resistance of CeO2–WO3 SCR catalysts: Structure investigation and deactivation analysis" Chem. Eng. J., 317 (2017) 70, 2017 Линк
492. W. Zhang, X. Liu, X. Dong, F. Dong and Y. Zhang, "Facile synthesis of Bi12 O17 Br2 and Bi4 O5 Br2 nanosheets: In situ DRIFTS investigation of photocatalytic NO oxidation conversion pathway", Chin. J. Catal., 38 (2017) 2030 [ISI], 2017 Линк
493. X. Li, X. Li, R.T. Yang, J. Mo, J. Li and J. Hao, "The poisoning effects of calcium on V2O5-WO3/TiO2 catalyst for the SCR reaction: Comparison of different forms of calcium" Mol. Catal., 434 (2017) 16, 2017 Линк
494. X. Li, Y. Sun, T. Xiong, G. Jiang, Y. Zhang, Z. Wu and F. Dong, "Activation of amorphous bismuth oxide via plasmonic Bi metal for efficient visible-light photocatalysis" J. Catal., 352 (2017) 102, 2017 Линк
495. J. Wang, H. Yi, X. Tang, S. Zhao, F. Gao, R. Zhang and Z. Yang, "Products Yield and Energy Efficiency of Dielectric Barrier Discharge for NO Conversion: Effect of O2 Content, NO Concentration, and Flow Rate" Energy Fuels, 31 (2017) 9675, 2017 Линк
496. V.P. Dinesh, A. Sukhananazerin and P. Biji, "An emphatic study on role of spill-over sensitization and surface defects on NO2 gas sensor properties of ultralong ZnOAu heterojunction NRs" J. Alloys Comp., 712 (2017) 811, 2017 Линк
131. Stefanov, P., Stoychev, D., Stoycheva, M., Ts. Marinova,. XPS and SEM studies of chromium oxide films chemically formed on stainless steel 316 L. Materials Chemistry and Physics, 65, 2, Elsevier Sequoia SA,Lausanne, Switzerland, 2000, ISSN:0254-0584, DOI:10.1016/S0254-0584(00)00249-2, 212-215. SJR:0.818, ISI IF:2.259
Цитира се в:
497. Rodriguez, D., Merwin, A., Karmiol, Z., Chidambaram, D. Surface chemistry and corrosion behavior of Inconel 625 and 718 in subcritical, supercritical, and ultrasupercritical water
page 46/232
(2017) Applied Surface Science, 404, pp. 443-451., 2017 Линк
132. Stoyanova, R., Zhecheva, E., Kuzmanova, E., Alcantara, R., Lavela, P., Tirado, J. L.. Aluminium coordination in LiNi1-yAlyO2 solid solutions. Solid State Ionics, 128, 1-4, 2000, ISSN:0167-2738, 1-10. ISI IF:2.561
Цитира се в:
498. Xu, J., Lin, F., Doeff, M. M., & Tong, W. (2017). A review of Ni-based layered oxides for rechargeable Li-ion batteries. Journal of Materials Chemistry A. (3) , 874-901., 2017 Линк
499. Meng, H., Zhou, P., Zhang, Z., Tao, Z., & Chen, J. "Preparation and characterization of LiNi 0.8 Co 0.15 Al 0.05 O 2 with high cycling stability by using AlO 2-as Al source". Ceramics International (2017) 43 (4), 3885–3892, 2017 Линк
500. Liang, C., Kong, F., Longo, R.C., Zhang, C., Nie, Y., Zheng, Y., Cho, K., "Site-dependent multicomponent doping strategy for Ni-rich LiNi1-2: YCoyMnyO2 (y = 1/12) cathode materials for Li-ion batteries" , J. Mater. Chem. A 5 (48) 25303-25313 (2017), 2017 Линк
501. K. He, Z. Ruan, X. Teng, Y. Zhu, (2017) "Facile Synthesis and Electrochemical Properties of Spherical LiNi0.85−xCo0.15AlxO2 with Sodium aluminate via Co-precipitation", Mater. Res. Bull. 90, 131-137, 2017 Линк
502. Momot, A.; Amini, M.N.; Reekmans, G.; Lamoen, D.; Partoens, B.; Slocombe, D.R.; Elen, K.; Adriaensens, P.; Hardy, A.; Van Bael, M.K. (2017) A novel explanation for the increased conductivity in annealed Al-doped ZnO: an insight into migration of aluminum and displacement of zinc", PhysChemChemPhys 19, 27866-27877, 2017 Линк
133. Stefanov, P., Stoychev, D., Valov, I., Kakanakova-Georgieva, A., Marinova, Ts.. Electrochemical deposition of thin zirconia films on stainless steel 316 L. Materials Chemistry and Physics, 65, 2, Elsevier, 2000, ISSN:02540584, DOI:10.1016/S0254-0584(00)00251-0, 222-225. SJR:0.818, ISI IF:2.259
Цитира се в:
503. Eastman, M.C.et al., Investigation of coloration defects in porous zirconium by X-ray photoelectron spectroscopy, Journal of Alloys and Compounds, , Volume 728, 2017, Pages 1260-1268, 2017 Линк
134. Stoyanova, R., Gorova, M., Zhecheva, E.. EPR monitoring of Mn4+ distribution in Li4Mn5O12 spinels. Journal of Physics and Chemistry of Solids, 6, 14, 2000, ISSN:0022-3697, 615-620. ISI IF:1.853
Цитира се в:
504. Tang, M., Dalzini, A., Li, X., Feng, X., Chien, P. H., Song, L., & Hu, Y. Y. (2017). Operando EPR for Simultaneous Monitoring of Anionic and Cationic Redox Processes in Li-Rich Metal Oxide Cathodes. The journal of physical chemistry letters, 8(17), 4009-4016., 2017 Линк
135. Hadjiivanov , K., H. Knözinger. Species Formed After NO Adsorption and NO + O2 Co-adsorption on TiO2: An FTIR Spectroscopic Study. Physical Chemistry Chemical Physics, 2, Royal Society of Chemistry, 2000, DOI:10.1039/B002065F, 2803-2806. ISI IF:4.493
Цитира се в:
505. F. Dong, T. Xiong, Y. Sun, L. Lu, Y. Zhang, H. Zhang, H. Huang, Y. Zhou, Z. Wu, "Exploring the photocatalysis mechanism on insulators", Appl. Catal. B, 219 (2017) 450-458, 2017 Линк
506. X. Dong, W. Zhang, W. Cui, Y. Sun, H. Huang, Z. Wu and F. Dong, "Pt quantum dots deposited on N-doped (BiO)2CO3: enhanced visible light photocatalytic NO removal and reaction pathway", Catal. Sci. Technol., 7 (2017) 1324-1332, 2017 Линк
507. I. Castellanos and O. Marie, "An operando FT-IR study of the NOx SCR over Co-HFER and
page 47/232
Fe-HFER using acetylene as a reducing agent", Catal. Today, 283 (2017) 54–65., 2017 Линк
508. X. Dong, W. He, H. Wang, Y. Sun, F. Dong and Z. Wu, "In situ FT-IR investigation on visible light photocatalytic NO oxidation mechanism with (BiO)2CO3 and N-doped (BiO)2CO3 hiararchical microspheres", Chin. Sci. Bull., 62 (2017) 2534-2543, 2017 Линк
509. W. El-Alami, D. Garzon Sousa, C. Fernández Rodríguez, O. González Díaz, J.M. Doña Rodríguez, M. El Azzouzi and J. Araña, "Efect of TiF surface interaction on the photocatalytic degradation of phenol, aniline and formic acid", J. Photochem. Photobiol. A, 348 (2017) 139-149, 2017 Линк
510. J. Balbuena, "Preparacion de nuevos materiales fotocatalizadores para la descontaminacion de gases NOx", Ph. D. Thesis, Universidad de Cordoba, Cordoba, Spain, 2017 Линк
511. X. Feng, W. Zhang, Y. Sun, H. Huang and F. Dong, "Fe(III) cluster-grafted (BiO)2CO3 superstructures: in situ DRIFTS investigation on IFCT-enhanced visible light photocatalytic NO oxidation", Environ. Sci. Nano, 4 (2017) 604-612, 2017 Линк
512. F. Gao, X. Tang, H. Yi, C. Chu, N. Li, J. Li and S. Zhao, "In-situ DRIFTS for the mechanistic studies of NO oxidation over α-MnO2, β-MnO2 and γ-MnO2 catalysts", Chem. Eng. J., 322 (2017) 525-537, 2017 Линк
513. G. Gao, J.-W. Shi, Z. Fan, C. Gao and C. Niu, "MnM2O4 microspheres (M = Co, Cu, Ni) for selective catalytic reduction of NO with NH3: Comparative study on catalytic activity and reaction mechanism via in-situ diffuse reflectance infrared Fourier transform spectroscopy", Chem. Eng. J., 325 (2017) 91-100, 2017 Линк
514. G. Gao, J.-W. Shi, C. Liu, C. Gao, Z. Fan and C. Niu, "Mn/CeO2 catalysts for SCR of NOx with NH3: comparative study on the effect of supports on low-temperature catalytic activity", Appl. Surf. Sci., 411 (2017) 338-346, 2017 Линк
515. Y. Liu, S. Yu, Z. Zhao, F. Dong, X. Dong and Y. Zhou, "N-Doped Bi2O2CO3/Graphene Quantum Dot Composite Photocatalyst: Enhanced Visible-Light Photocatalytic NO Oxidation and In Situ DRIFTS Studies", J. Phys. Chem. C, 121 (2017) 12168-12177, 2017 Линк
516. Y. Liu, Y. Zhang, L. Wang, G. Yang, F. Shen, S. Deng, X. Zhang, Y. He, Y. Hu and X. Chen, "Fast and Large-Scale Anodizing Synthesis of Pine-Cone TiO2 for Solar-Driven Photocatalysis", Catalysts, 7 (2017) 229, 2017 Линк
517. Z. Ni, W. Zhang, G. Jiang, X. Wang, Z. Lu, Y. Sun, X. Li, Y. Zhang and F. Dong, "Enhanced plasmonic photocatalysis by SiO2Bi microspheres with hot-electron transportation channels via Bi–O–Si linkages", Chin. J. Catal., 38 (2017) 1174-1183, 2017 Линк
518. X.Y. Xie, Q. Wang, W.H. Fang and G. Cui, "DFT Study on Reaction Mechanism of Nitric Oxide to Ammonia and Water on a Hydroxylated Rutile TiO2(110) Surface", J. Phys. Chem. C, 121 (2017) 16373-16380, 2017 Линк
519. Z. Fan, J.-W. Shi, C. Gao, G. Gao, B. Wang and C. Niu, "Rationally Designed Porous MnOx–FeOx Nanoneedles for Low-Temperature Selective Catalytic Reduction of NOx by NH3", ACS Appl. Mater. Interfaces, 9 (2017) 16117 -16127, 2017 Линк
520. W. Cui, J. Li, W. Cen, Y. Sun, S.C. Lee and F. Dong, "Steering the interlayer energy barrier and charge flow via bioriented transportation channels in g-C 3 N 4 : Enhanced photocatalysis and reaction mechanism", J. Catal., 352 (2017) 351-360, 2017 Линк
521. Y. You, H. Chang, T. Zhu, T. Zhang, X. Li and J. Li, "The poisoning effects of phosphorus on CeO2-MoO3/TiO2 DeNOx catalysts: NH3-SCR activity and the formation of N2O", Mol. Catal., 439 (2017) 15, 2017 Линк
136. Vassileva, E., Hadjiivanov, K., Stoychev, T., Daiev, Ch.. Chromium speciation analysis by solid-phase extraction on a high surface area TiO2. Analyst, 125, 2000, DOI:10.1039/A906471K, 693-698. ISI
page 48/232
IF:4.107
Цитира се в:
522. D.J. Wang, Y. An, J.M. Qiang and H. Yuan, Core-shell amorphous metal oxides/metallic glassy particles for absorbing application of toxic heavy metal and electromagnetic wave, Scripta Mater., 132 (2017) 30 [ISI]., 2017 Линк
137. Hadjiivanov , K., P. Concepcion, H. Knözinger. Analysis of oxidation states of vanadium in vanadia–titania catalysts by the IR spectra of adsorbed NO. Topics in Catalysis, 11, 1-4, Springer International Publishing AG, 2000, ISSN:1022-5528, DOI:10.1023/A:1027269629785, 123-130. ISI IF:2.365
Цитира се в:
523. J. Strunk, M.A. Bañares and I.E. Wachs, Vibrational spectroscopy of oxide overlayers.Top. Catal., 60 (2017) 1577 [ISI]., 2017 Линк
138. Stoilova, D., Koleva, V.. IR study of Solid Phases Formed in the Mg(HCOO)2- Cu(HCOO)2 - H2O System. Journal of Molecular Structure, 553, Elsevier, 2000, ISSN:0022-2860, 131-139. ISI IF:1.602
Цитира се в:
524. Krasilnikov, V. N., Zhukov, V. P., Gyrdasova, О. I., Dyachkova, Т. V., Tyutyunnik, А. P., Perevozchikova, Y. А., ... & Marchenkov, V. V. (2017). Precursor synthesis and magnetic properties of Cd1-xFexO (0≤ x≤ 0.07) polycrystalline solid solutions. Journal of Alloys and Compounds, 725, 1244-1251., 2017 Линк
139. Hadjiivanov, K., Knözinger, H.. FTIR Study of Low-Temperature CO Adsorption on Cu-ZSM-5: Evidence of the Formation of Cu2+(CO)2 Species. Journal of Catalysis, 191, 2000, DOI:10.1006/jcat.1999.2805, 480-485. ISI IF:2.993
Цитира се в:
525. L.H.H. Wee, M. Meledina, S. Turner, G. Van Tendeloo, K. Zhang, L.M. Rodriguez-Albelo, A. Masala, S. Bordiga, J. Jiang, J.A.R. Navarro, C.E.A. Kirschhock and J.A. Martens, 1D-2D-3D Transformation Synthesis of Hierarchical Metal-Organic Framework Adsorbent for Multicomponent Alkane Separation, J. Am. Chem. Soc., 139 (2017) 819, 2017 Линк
526. A.N. Dobrotvorskaia, O.S. Pestsov and A.A. Tsyganenko, Lateral Interaction between Molecules Adsorbed on the Surfaces of Non-Metals, Top. Catal., 60 (2017) 1506[ISI]., 2017 Линк
140. Staufer, M., Birkenheuer, U., Belling, T., Nortemann, F., Rosch, N., Widdra, W., Kostov, K.L., Moritz, T., Menzel, D.. The vibrational structure of benzene adsorbed on Si(001). Joulrnal of Chemical Physics, 112, 5, AIP Publishing, 2000, DOI:10.1063/1.480816, 2498-2506. ISI IF:2.965
Цитира се в:
527. Warschkow, O., Bennett, J.M., Miwa, J.A., Lopinski, G.P., Rosei, F., McKenzie, D.R. and Marks, N.A., Benzene and Pyridine on Silicon (001): A Trial Ground for Long-Range Corrections in Density Functional Theory. The Journal of Physical Chemistry C 121 (19), pp. 10484–10500, 2017., 2017 Линк
141. Stambolova I., Konstantinov, K., Vassilev, S., Peshev, P., Tsacheva, T.. Lanthanum doped SnO2 and ZnO thin films sensitive to ethanol and humidity. 2, Materials Chemistry and Physics, 2000, ISI IF:2.259
Цитира се в:
528. DT Dimitrov, NK Nikolaev, KI Papazova Investigation of the electrical and ethanol-vapour sensing properties of the junctions based on ZnO nanostructured thin film doped with copper , Applied Surface , 392, 2017 , 95-108 , Elsevier, 2017
page 49/232
529. Deposition, characterization and gas sensors application of RF magnetron-sputtered terbium-doped ZnO films, A Hastir, RL Opila, N Kohli, Z Onuk, B Yuan, … - Journal of Materials Science, 52, 2017, 8502-8517, 2017
530. J Manikantan, et al, Physical and optical properties of HfO2 NPs – Synthesis and characterization in finding its feasibility in opto-electronic devices , Advanced Powder Technology, 28, (2017) 1636-1646 ., 2017
531. A Hastir et al, Comparative study on gas sensing properties of rare earth (Tb, Dy and Er) doped ZnO sensor, Journal of Physics and Chemistry of Solids, 105, 2017, 23-34., 2017
532. G Singh et al., Synthesis and characterization of Gd-doped SnO2 nanostructures and their enhanced gas sensing properties, Ceramics International, 43, 2017, 2350-2360, 2017
533. M Shaban et al., Nanostructured ZnO thin films for self-cleaning applications , RSC Advances, 2017 , 7, 617-631., 2017
534. O. Hussein, Effect of capillary tube on structural and Optical Properties of SnO2 Thin Films Prepared by APCVD, International Journal of Chem. Tech. Research, Vol.10 No.12, 2017, pp 202-207, 2017
2001
142. Hadjiivanov , K., H. Knözinger. Formation of Ca2+(CO)3 Complexes during Low-temperature CO Adsorption on CaNaY Zeolite. J. Phys. Chem. B, 105, 20, American Chemical Society, 2001, DOI:10.1021/jp004248m, 4531-4534. ISI IF:2.693
Цитира се в:
535. R.E. Ramírez-Garza, Reduccion catalítica selectiva de NO mediante el sistema Cu-Mordenita modificado con Ag, Ph. D. Thesis, Centro de Investigacion Científica y de Educacion, Baja California, México, 2017 [GS]., 2017 Линк
143. Khrussanova M., Grigorova E., Mitov I., Radev D., Peshev P.. Hydrogen sorption properties of an Mg–Ti–V–Fe nanocomposite obtained by mechanical alloying. Journal of Alloys and Compounds, 327, Elsevier, 2001, ISSN:09258388, DOI:10.1016/S0925-8388(01)01421-9, 230-234. SJR:1.091, ISI IF:2.999
Цитира се в:
536. Chen, Yuying, et al. "First principles study of dehydrogenation properties of alkali/alkali-earth metal doped Mg7TiH16".JOURNAL OF ALLOYS AND COMPOUNDS. Volume: 728 Pages: 1016-1022, 2017, 2017 Линк
144. Ilieva, D., Kovacheva, D., Petkov, C., Bogachev, G.. Vibrational spectra of R(PO3)3 metaphosphates (R= Ga, In, Y, Sm, Gd, Dy). Journal of Raman Spectroscopy, 32, 11, 2001, ISSN:1097-4555, DOI:10.1002/jrs.753, 893-899. ISI IF:2.671
Цитира се в:
537. Jiménez, José A., and Mariana Sendova. "Catalyst role of Nd 3+ ions for the precipitation of silver nanoparticles in phosphate glass." Journal of Alloys and Compounds 691 (2017): 44-50., 2017 Линк
145. Mladenov, M., Stoyanova, R., Zhecheva, E., S. Vassilev. Effect of Mg doping and MgO-surface modification on the cycling stability of LiCoO2 electrodes. Electrochemistry Communications, 3, 8, 2001, ISSN:1388-2481, 410-416. ISI IF:4.847
Цитира се в:
538. Lim Jung Woo, Improved electrochemical performance of LiCoO2 through in situ electrochemical coating, Ph. D. Thesis, 2017 Линк
page 50/232
539. Klee, R., Wiatrowski, M., Aragon, M. J., Lavela, P., Ortiz, G. F., Alcántara, R., & Tirado, J. L. (2017). Improved surface stability of C+ MxOy Na3V2 (PO4) 3 prepared by ultrasonic method as cathode for sodium-ion batteries. ACS Appl. Mater. Interfaces, 2017, 9 (2), pp 1471–1478., 2017 Линк
540. Dixit, M., Markovsky, B., Aurbach, D., & Major, D. T. (2017). Unraveling the Effects of Al Doping on the Electrochemical Properties of LiNi0. 5Co0. 2Mn0. 3O2 Using First Principles. Journal of The Electrochemical Society, 164(1), A6359-A6365., 2017 Линк
541. Hou, P., Yin, J., Ding, M., Huang, J., Xu, X., (2017) Surface/Interfacial Structure and Chemistry of High-Energy Nickel-Rich Layered Oxide Cathodes: Advances and Perspectives, Small 13(45), 1701802., 2017 Линк
542. Xie, J., Sendek, A. D., Cubuk, E. D., Zhang, X., Lu, Z., Gong, Y., ... & Cui, Y. (2017). Atomic layer deposition of stable LiAlF4 lithium ion conductive interfacial layer for stable cathode cycling. ACS nano, 11(7), 7019-7027., 2017 Линк
543. Schipper, F., Bouzaglo, H., Dixit, M., Erickson, E. M., Weigel, T., Talianker, M., ... & Erk, C. (2017). From Surface ZrO2 Coating to Bulk Zr Doping by High Temperature Annealing of Nickel‐Rich Lithiated Oxides and Their Enhanced Electrochemical Performance in Lithium Ion Batteries, Adv. Energy Mater., 2017, 1701682., 2017 Линк
544. Etacheri, V. (2017). Sol-Gel Processed Cathode Materials for Lithium-Ion Batteries. In Sol-Gel Materials for Energy, Environment and Electronic Applications (pp. 155-195). Springer International Publishing.; Part of the Advances in Sol-Gel Derived Materials and Technologies book series (Adv.Sol-Gel Deriv. Materials Technol.), 2017 Линк
545. Zhu, Y., Luo, X., Zhi, H., Yang, X., Xing, L., Liao, Y., ... & Li, W. (2017). Structural Exfoliation of Layered Cathode under High Voltage and Its Suppression by Interface Film Derived from Electrolyte Additive. ACS Applied Materials & Interfaces, 9(13), 12021-12034., 2017 Линк
546. Kaneda, H., Koshika, Y., Nakamura, T., Nagata, H., Ushio, R., & Mori, K. (2017). Improving the Cycling Performance and Thermal Stability of LiNi0. 6Co0. 2Mn0. 2O2 Cathode Materials by Nb-doping and Surface Modification. Int. J. Electrochem. Sci, 12, 4640-4653., 2017 Линк
547. Shim, J. H., Cho, N. H., & Lee, S. (2017). Synthesis and characterization of Mg 2 TiO 4-coated LiCoO 2 as a cathode material for lithium ion batteries. Electrochimica Acta, 243, 162-169., 2017 Линк
548. Xu, F., Yan, H., Chen, J., He, M., Zhang, Z., Fan, C., & Liu, G. (2017). Improving electrochemical properties of LiCoO 2 by enhancing thermal decomposition of Cobalt and Lithium carbonates to synthesize ultrafine powders. Ceramics International, 43(8), 6494-6501., 2017 Линк
549. Muruganantham, R., Sivakumar, M., & Subadevi, R. (2017). Polyol technique synthesis of Nb2O5 coated on LiFePO4 cathode materials for Li-ion storage. Ionics, 1-11., 2017 Линк
146. Hadjiivanov , K., H. Knözinger. FTIR study of CO and NO adsorption and coadsorption on a Cu/SiO2 catalyst: Probing the oxidation state of copper. Physical Chemistry Chemical Physics, 3, Royal Society of Chemistry, 2001, DOI:10.1039/B009649K, 1132-1137. ISI IF:4.493
Цитира се в:
550. E. Liakakou, M. Isaacs, K. Wilson, A.F. Lee and E. Heracleous, On the Mn promoted synthesis of higher alcohols over Cu derived ternary catalysts, Catal. Sci. Technol., 7 (2017) 988 [ISI]., 2017 Линк
551. X. Li, Q. Zhang, H. Xie, X. Gao, Y. Wu, G. Yang, P. Wang, S. Tian and Y. Tan, Facile Preparation of Cu‐Al Oxide Catalysts and Their Application in the Direct Synthesis of Ethanol from Syngas, Chem. Select, 2 (2017) 10365 [ISI]., 2017 Линк
page 51/232
552. X. Meng, H. Guo, Q. Wang, Y. Xiao, C. Chen, B. Hou and D. Li, Elucidating the nature and role of copper species in catalytic carbonylation of methanol to methyl acetate over copper/titania–silica mixed oxides, Catal. Sci. Technol., 7 (2017) 3511 [ISI]., 2017 Линк
553. S. Najafishirtari, Nanoparticles for Technological Applications, Ph. D. Thesis, Universita’ degli Studi di Genova, Genova, Italy and Universität Regensburg, Regensburg, Germany, 2017 [GS]., 2017 Линк
554. Z. Qu, Y. Li, S. Huang, P. Chen and X. Ma, Clarification of copper species over Cu-SAPO-34 catalyst by DRIFTS and DFT study of CO adsorption, Sci. China Chem., 60 (2017) 912 [ISI]., 2017 Линк
555. J. Schittkowski, Kinetic and calorimetric studies of structure-activity correlations in copper-based hydrogenation catalysts, Ph. D. Thesis, Ruhr–Universität Bochum, Bochum, Germany, 2017 [GS]., 2017 Линк
556. C. Liu, S.K. Iyemperumal, N.A. Deskins and G. Li, Photocatalytic CO2 reduction by highly dispersed Cu sites on TiO2, J. Photon. Energy, 7 (2017) 12004, 2017 Линк
557. A. Kharchenko, Properties of copper species stabilized in zeolite nanocrystals, Ph. D. Thesis, University of Normandy, Caen, France, 2017 [GS]., 2017 Линк
147. Zhecheva, E., Stoyanova, R., Gorova, M., Lavela, P., Tirado, J.L.. Co/Mn distribution and electrochemical intercalation of Li into Li [Mn 2− y Co y] O 4 spinels, 0< y≤ 1. Solid State Ionics, 140, 1, Elsevier BV, 2001, ISSN:0167-2738, DOI:10.1016/S0167-2738(01)00702-0, 19-23. SJR:0.771, ISI IF:2.561
Цитира се в:
558. Li, J., Hussain, A., Li, D., Yang, M., & Xu, S. (2017). Catalytic performance of graphene-bimetallic composite for heterogeneous oxidation of acid orange 7 from aqueous solution. Environmental Science and Pollution Research, 24(8), 7264-7273., 2017 Линк
148. Dimitrova, S., Nikolov, V., Mehandjiev, D.. Effect of the heat treatment on the morphology and sorption ability to metal ions of metallurgical slag. Journal of Materials Science, 36, 11, Springer Netherlands, 2001, ISSN:1573-4803, DOI:10.1023/A:1017996325916, 2639-2643. SJR:0.929, ISI IF:2.371
Цитира се в:
559. Bouaziz, A., Hamzaoui, R., Guessasma, S., Lakhal, R., Achoura, D., Leklou, N. Efficiency of high energy over conventional milling of granulated blast furnace slag powder to improve mechanical performance of slag cement paste (2017) Powder Technology, 308, pp. 37-46, 2017
149. Ilieva, D., Jivov, B., Kovacheva, D., Tsacheva, Ts., Dimitriev, Y., Bogachev, G., Petkov, Ch.. FT-IR and Raman spectra of Gd phosphate crystals and glasses. Journal of Non-Crystalline Solids, 293-295, 1, 2001, ISSN:0022-3093, DOI:10.1016/S0022-3093(01)00778-5, 562-568. ISI IF:1.766
Цитира се в:
560. Zhang, L. Y., H. Li, and L. L. Hu. "Statistical structure analysis of GeO 2 modified Yb 3+: Phosphate glasses based on Raman and FTIR study." Journal of Alloys and Compounds 698 (2017): 103-113., 2017 Линк
150. Balarew, Chr, Tepavitcharova, S, Rabadjieva, D, Voigt, W. Solubility and crystallization in the system MgCl2-MgSO4-H2O at 50 and 75°C. Journal of Solution Chemistry, 30, 9, Springer New York, 2001, ISSN:0095-9782, 815-823. SJR:0.456, ISI IF:1.235
Цитира се в:
561. Krumgalz, B. S. ""Temperature Dependence of Mineral Solubility in Water. Part I. Alkaline and Alkaline Earth Chlorides"". Journal of Physical and Chemical Reference Data, 46 (4) 043101 , 2017, 2017 Линк
page 52/232
151. Mihaylov, M., Hadjiivanov , K., H. Knözinger. Formation of Ni(CO)4 during the Interaction between CO and Silica-supported Nickel Catalyst: An FTIR Spectroscopy Study. Catalysis Letters, 76, 1, Springer US, 2001, ISSN:1572-879X, DOI:10.1023/A:1016786023456, 59-63. ISI IF:2.307
Цитира се в:
562. S. Suganuma, K. Nakamura, A. Okuda, N. Katada, Enhancement of catalytic activity for toluene disproportionation by loading Lewis acidic nickel species on ZSM-5 zeolite, Mol. Catal., 435 (2017) 110, 2017 Линк
563. D.P. Gamliel, G.M. Bollas and J.A. Valla, Bifunctional Ni‐ZSM‐5 Catalysts for the Pyrolysis and Hydropyrolysis of Biomass, Ehergy Technol., 5 (2017) 172 [ISI]., 2017 Линк
564. Y. Lin, Y. Zhu, X. Pan and X. Bao, Modulating the methanation activity of Ni by the crystal phase of TiO 2, Catal. Sci. Technol., 7 (2017) 2813 [ISI]., 2017 Линк
565. T. Margossian, Tailored Supported Nickel Nanoparticle Catalysts for Dry Reforming of Methane via a Molecular Approach, Ph. D. Thesis, ETH, Zurich, Switzerland, 2017 [GB]., 2017 Линк
152. Radev D. D., Klissurski D.. Tribochemical Synthesis and SHS of Diborides of Titanium and Zirconium. Journal of Materials Synthesis and Processing, 9, 3, 2001, ISSN:1064-7562, DOI:10.1023/A:1013245413840, 131-136. ISI IF:0.49
Цитира се в:
566. Krutskii, Yu L., et al. "Synthesis of fine dispersed titanium diboride from nanofibrous carbon." Ceramics International Volume 43, Issue 3, 15 February 2017, Pages 3212–3217, 2017 Линк
567. Ağaoğulları, Duygu, et al. "Microstructural Evaluation of ZrB 2/ZrO 2 Ceramic Powders Prepared by Milling-Assisted Magnesiothermic Reduction of Oxide Raw Materials." KONA Powder and Particle Journal 34 (2017) 183-196., 2017 Линк
568. КРУТСКИЙ Ю.Л, et al., СИНТЕЗ ВЫСОКОДИСПЕРСНОГО ДИБОРИДА ЦИРКОНИЯ ДЛЯ ИЗГОТОВЛЕНИЯ КЕРАМИКИ СПЕЦИАЛЬНОГО НАЗНАЧЕНИЯ, ЖУРНАЛ ПРИКЛАДНОЙ ХИМИИ, Том: 90Номер: 10; 1295-1302, 2017 Линк
569. Tan, C."Preparation of ZrB2 Ultrafine Powders via Molten-salt-mediated Magnesiothermic Reduction."Cailiao Daobao/Materials Review Volume 31, Issue 4, 25 April 2017, Pages 109-112, 2017
570. Krutskii, Y.L. "Synthesis of Highly Dispersed Zirconium Diboride for Fabrication of Special-Purpose Ceramic".Russian Journal of Applied Chemistry, Volume 90, Issue 10, 1 October 2017, Pages 1579-1585, 2017 Линк
571. CL Yeh, WZ Lin, Combustion Synthesis of UHTC Composites from Ti–B4C Solid State Reaction with Addition of VIb Transition Metals- Coatings, 2017, Coatings 2017, 7, 73; doi:10.3390/coatings7060073 www.mdpi.com/journal/coatings, 1-8, 2017 Линк
572. C.L. Yeh, C.H. Kang, Formation of WB 2/mullite composites by reduction-based combustion synthesis with Al and Si as reductants and excess B 2 O 3 addition; Ceramics International, 43(13) 2017 9968-9972., 2017 Линк
573. Özge Balcı, Nazlı Akçamlı, Duygu Ağaoğulları, M. Lütfi Öveçoğlu, İsmail DumanOtoklavda sentezlenen ZrB2-ZrO 2 tozlarının farklı tekniklerle sinterlenmesi ve yığın yapıların mikroyapısal ve bazı mekanik özelliklerinin incelenmesi BORON 2 (1), 1 - 10, 2017, 2017 Линк
574. C.L. Yeh, M.H. Chong, Effects of B4C and BN additions on formation of NbB2–Al2O3 composites from reduction-based combustion synthesis, Ceramics International 43(10) (2017), 7560-7564., 2017 Линк
575. Faruk, Emrullahoglu Omer; Betul, Emrullahoglu Abi Cemile; Ufuk, Saral, ZrB2 POWDER
page 53/232
PRODUCTION FROM ZrO2 BY CARBOTHERMIC REDUCTION, Journal of Chemical Technology & Metallurgy . 2017, Vol. 52 Issue 2, p395-399. 5p., 2017 Линк
153. Balarew, Chr, Dirkse, T, Golubchikov, O, Salomon, M, Trendafilova, S, Tepavitcharova, S, Ageyeva, T, Baldini, P, D’Andrea, G. IUPAC-NIST Solubility Data Series. 73. Metal and Ammonium Formate Systems. J. Phys. Chem. Ref. Data, 30, 1, 2001, ISSN:0047-2689, 1-163. ISI IF:2.811
Цитира се в:
576. Dmitri A. Bulushev, Monika Zacharska, Yina Guo, Andrey Simakov, CO-free hydrogen production from decomposition of formic acid over Au/Al2O3 catalysts doped with potassium ions, Catalysis Communications 92, 86-89, DOI: 10.1016/j.catcom.2017.01.011, 2017, 2017 Линк
154. Hadjiivanov, K., Knözinger, H., Ivanova, E., Dimitrov, L.. FTIR study of low-temperature CO and 15N2 adsorption on a CaNaY zeolite: formation of site-specified Ca2+(CO)3 and Ca2+(15N2)3 complexes. Physical Chemistry Chemical Physics, 3, Royal Society of Chemistry, 2001, DOI:10.1039/B101782I, 2531-2536. ISI IF:4.493
Цитира се в:
577. A.N. Dobrotvorskaia, O.S. Pestsov and A.A. Tsyganenko, Lateral Interaction between Molecules Adsorbed on the Surfaces of Non-Metals, Top. Catal., 60 (2017) 1506 [ISI]., 2017 Линк
578. A. Rybakov, A. Larin and D. Vercauteren, CO diffusion as a re-orientation mechanism in the NaY zeolite, Phys. Chem. Chem. Phys., 19 (2017) 20930 [ISI]., 2017 Линк
579. E. Burzo, Cond. Matter, 2716 (2017) 1397 [ISI]., 2017
155. Mehandjiev, D., Naydenov, A., Ivanov, G.. Ozone decomposition, benzene and CO oxidation over NiMnO3-ilmenite and NiMn2O4-spinel catalysts. Applied Catalysis A: General, 206, 1, Elsevier, 2001, ISSN:0926860X, DOI:10.1016/S0926-860X(00)00570-6, 13-18. ISI IF:3.94
Цитира се в:
580. Guoxiang Zhu, Jinguo Zhu, Wenjun Jiang, Zijian Zhang, Jun Wang, Yongfa Zhu, Qianfan Zhang, Surface oxygen vacancy induced α-MnO2 nanofiber for highly efficient ozone elimination, Applied Catalysis B: Environmental, Volume 209, 15 July 2017, Pages 729-737, 2017 Линк
581. Satoshi Horikoshi, Robert F. SchiffmannJun FukushimaNick Serpone, Materials Processing by Microwave Heating, Microwave Chemical and Materials Processing pp 321-381, 2017 Линк
582. Yen-Linh Thi Ngo, Lijun Sui, Wei Ahn, Jin Suk Chung, and Seung Hyun Hur, NiMn2O4 spinel binary nanostructure decorated on three-dimensional reduced graphene oxide hydrogel for bifunctional materials in non-enzymatic glucose sensor, Nanoscale, 2017, 9, 19318-19327., 2017 Линк
583. Yang Liu and Pengyi Zhang, Removing Surface Hydroxyl Groups of Ce-Modified MnO2 To Significantly Improve Its Stability for Gaseous Ozone Decomposition, J. Phys. Chem. C, 2017, 121 (42), pp 23488–23497, 2017 Линк
584. Saeid Khademolhoseini, Synthesis, characterization, and morphological control of nickel manganite nanoparticles through new method and its photocatalyst application, Journal of Materials Science: Materials in Electronics, June 2017, Volume 28, Issue 11, pp 7899–7904, 2017 Линк
585. C.Ramakrishna, S. Chandra Shekar, A.K.Gupta, Bijendra Saini, R.Krishna, G.Swetha, T.Gopi, Degradation of diethyl sulfide vapors with manganese oxide catalysts supported on zeolite-13X: The influence of process parameters and mechanism in presence of ozone,
page 54/232
Journal of Environmental Chemical Engineering, Volume 5, Issue 2, April 2017, Pages 1484-1493, 2017 Линк
156. Andreeva, D., Tabakova, T., Ilieva, L., Naydenov, A., Mehandjiev, D., Abrashev, M. V.. Nanosize gold catalysts promoted by vanadium oxide supported on titania and zirconia for complete benzene oxidation. Applied Catalysis A: General, 209, 1-2, Elsevier, 2001, DOI:10.1016/S0926-860X(00)00766-3, 291-300. ISI IF:3.94
Цитира се в:
586. Tze HaoTan, Jason A. Scott, Yun Hau Ng, Robert A.Taylor, Kondo-Francois Aguey-Zinsou, Rose Amal, Plasmon enhanced selective electronic pathways in TiO2 supported atomically ordered bimetallic Au-Cu alloys, Journal of Catalysis, Volume 352, August 2017, Pages 638-648, 2017 Линк
587. T.Magadzua, M.S.Scurrell, Stability of gold particles in NaY-type zeolites: Promotional effects of co-exchanged metal cations, Microporous and Mesoporous Materials, Volume 241, 15 March 2017, Pages 52-57, 2017 Линк
157. Ivanova, E., Hadjiivanov, K., Klissurski, D., Bevilacqua, M., Armaroli, T., Busca, G.. FTIR Study of Species Arising after NO Adsorption and NO + O2 Co-adsorption on CoY: Comparison with Co–ZSM-5. Microporous and Mesoporous Materials, 46, 2-3, Elsevier, 2001, DOI:doi:10.1016/S1387-1811(01)00311-0, 299-309. ISI IF:3.453
Цитира се в:
588. Q. Yang, Z. Chen, D. Zhou, W. Shen and S. Naito, Effect of cobalt substitution on nanoporous nickel phosphate VSB-5 catalyst for the catalytic reduction of NO by H2, Catal. Today, 297(2017) 64 [ISI]., 2017 Линк
589. G. Zou, Z. Fan, X. Yao, Y. Zhang, Z. Zhang, M. Chen and W. Shangguan, Catalytic performance of Ag/Co-Ce composite oxides during soot combustion in O2 and NOx: Insights into the effects of silver , Chin. J. Catal., 38 (2017) 564 [ISI]., 2017 Линк
590. A. Bellmann, Mechanistische Untersuchungen der selektiven katalytischen Reduktion (SCR) von Stickoxiden mit Methan an Co-ZSM-5-Katalysatoren, Ph. D. Thesis, Universität Rostock, Rostock, Germany, 2017 [GS]., 2017
158. Stoilova, D., Koleva, V.. Infrared Spectroscopic Study of Mixed Copper-Cobalt and Copper-Nickel Formate Dihydrates (Cation Distribution in Mixed Crystals). Spectrochimica Acta Part A, 57, Elsevier, 2001, ISSN:1386-1425, 2629-2636. ISI IF:2.353
Цитира се в:
591. Cao, X., Zhou, R., Rui, N., Wang, Z., Wang, J., Zhou, X., & Liu, C. J. (2017). Co3O4/HZSM-5 catalysts for methane combustion: The effect of preparation methodologies. Catalysis Today., 297, Pages 219-227, 2017 Линк
159. Plachkova, S., Avramova, I. Materials for thermoelectric application based on the system GeTe-AgBiTe2. Physica Status Solidi (A), 184, 1, Wiley, 2001, ISSN:1862-6319, 195-200. SJR:0.68, ISI IF:1.205
Цитира се в:
592. Shubin, A., Karpenkov, D., Stepashkin, A., Arkhipov, D., Taskaev, S., Takagi, T., Khovaylo, V. Structural properties of Mg2(Si, Ge, Sn)-based thermoelectric materials prepared by induction melting method (2017) Solid State Phenomena, 266 SSP, pp. 207-211., 2017 Линк
160. Hadjiivanov , K., J.-C. Lavalley. FT-IR Spectroscopic Study of CO Adsorption on Monoclinic Zirconia of Different Hydroxylation Degrees. Catalysis Communications, 2, Elsevier, 2001, DOI:10.1016/S1566-
page 55/232
7367(01)00020-6, 129-133. ISI IF:3.699
Цитира се в:
593. M. Shyamsundar, S. Z. Mohamed Shamshuddin, V. T. VasanthT. E. Mohankumar, Simple but efficient synthesis of bis(indolyl)methanes by the condensation reaction of substituted benzaldehydes with indole over mesoporous ZrO2–MgO green catalysts under solvent free conditions, J Porous Mater 24 (2017) 1003, 2017 Линк
161. Hadjiivanov , K., T. Venkov, H. Knözinger. FTIR Spectroscopic Study of CO Adsoprption on Cu/SiO2: Formation of New Types of Copper Carbonyls. Catalysis Letters, 75, 1, Springer US, 2001, DOI:10.1023/A:1016759123842, 55-59. ISI IF:2.307
Цитира се в:
594. Z Bai, Z Zhang, B Chen, Q Zhao, M Crocker, C. Shi, Non-thermal plasma enhanced NSR performance over Pt/M/Ba/Al2O3 (M = Mn, Co, Cu) catalysts, Chem. Eng. J., 314 (2017) 688 [ISI]., 2017 Линк
595. C. Liu, S.K. Iyemperumal, N.A. Deskins and G. Li, Photocatalytic CO2 reduction by highly dispersed Cu sites on TiO2, J. Photon. Energy, 7 (2017) 12004, 2017 Линк
596. E. Liakakou, M. Isaacs, K. Wilson, A.F. Lee and E. Heracleous, On the Mn promoted synthesis of higher alcohols over Cu derived ternary catalysts, Catal. Sci. Technol., 7 (2017) 988 [ISI]., 2017 Линк
597. J. Schittkowski, Kinetic and calorimetric studies of structure-activity correlations in copper-based hydrogenation catalysts, Ph. D. Thesis, Ruhr–Universität Bochum, Bochum, Germany, 2017 [GS]., 2017 Линк
162. Gaudin, E., Taulelle, F., Stoyanova, R., Zhecheva, E., Alcantara, R., Lavela, P., Tirado, J. L.. Cobalt(III) effect on 27Al NMR chemical shifts in LiAlxCo1-xO2. Journal of Physical Chemistry B, 105, 34, 2001, ISSN:1520-6106, 8081-8087. ISI IF:3.187
Цитира се в:
598. Han, B., Paulauskas, T., Key, B., Peebles, C., Park, J. S., Klie, R. F., ... & Dogan, F. (2017). Understanding the Role of Temperature and Cathode Composition on Interface and Bulk: Optimizing Aluminum Oxide Coatings for Li-Ion Cathodes. ACS Applied Materials & Interfaces, 9(17), 14769-14778., 2017 Линк
2002
163. Koleva, V., Stoilova, D.. Infrared and Raman Studies of the Solids in the Mg(CH3COO)2 – Zn(CH3COO)2 - H2O System. Journal of Molecular Structure, 611, Elsevier, 2002, ISSN:0022-2860, 1-8. ISI IF:1.602
Цитира се в:
599. Fuchs, P. (2017). Chemical bath deposition of transparent conductive zinc oxide thin films for solar cell applications (Doctoral dissertation), ETH Zurich Research Collection, ETH No. 24156, 2017 Линк
600. Jiang, M., Zhou, T., Liu, W., Feng, C., Liu, J., & Guo, Z. (2017). Graphene aerogel supported crystalline ZnO amorphous Zn 2 GeO 4 core–shell hierarchical structure for lithium storage. RSC Advances, 7(29), 17769-17772., 2017 Линк
601. Karuna, S., Balu, A.R., Muthu, S., Shyamala, D., Delci, Z., Ramkumaar, G.R. Structural, optical, thermal and NLO behavior of zinc hydrogen maleate dihydrate single crystal (2017) Materials Science- Poland, 35 (4), pp. 773-784., 2017 Линк
page 56/232
164. Hadjiivanov , K., P. Lukinskas, H. Knözinger. Detection of Reduced W n+ Sites on WO3–ZrO2 and Pt/WO3–ZrO2 Catalysts by Infrared Spectroscopy of Adsorbed NO. Catalysis Letters, 82, 1, Springer International Publishing AG, 2002, ISSN:1011-372X, DOI:10.1023/A:1020592125316, 73-77. ISI IF:2.307
Цитира се в:
602. J.C. Yu, J. Lasek, V. Nguyen, Y. Yu, J.C.S. Wu, Visualizing reaction pathway for the photo-transformation of NO2 and N2 into NO over WO3 photocatalyst, Res. Chem. Intermed., 43 (2017) 7159 [ISI]., 2017 Линк
603. J. Strunk, M.A. Bañares and I.E. Wachs, Vibrational spectroscopy of oxide overlayers, Top. Catal., 60(2017)1577 [ISI]., 2017 Линк
165. Hadjiivanov, K., Knözinger, H., Milushev, A.. FTIR study of low-temperature CO adsorption on Cu/silicalite-1. Catalysis Communications, 3, 2002, DOI:10.1016/S1566-7367(01)00067-X, 37-44. ISI IF:1.89
Цитира се в:
604. J. Jońca, A. Ryzhikov, S. Palussière, J. Esvan, K. Fajerwerg, P. Menini, M.L. Kahn and P. Fau, Organometallic Synthesis of CuO Nanoparticles: Application in Low‐Temperature CO Detection, ChemPhysChem, 18 (2017) 2658 [ISI]., 2017 Линк
166. Stoilova, D., Koleva, V., Vassileva, V.. Infrared Study of Some Solid Synthetic Phases of the Malachite - Hydrozincite Series. Spectrochimica Acta Part A, 58, 9, Elsevier, 2002, ISSN:1386-1425, 2051-2059. ISI IF:2.353
Цитира се в:
605. Carbone, M., Briancesco, R., & Bonadonna, L. (2017). Antimicrobial power of Cu/Zn mixed oxide nanoparticles to Escherichia coli. Environmental Nanotechnology, Monitoring & Management, 7, 97-102., 2017 Линк
606. Stelmachowski, P., Ciura, K., Indyka, P., & Kotarba, A. (2017). Facile synthesis of ordered CeO2 nanorod assemblies: Morphology and reactivity. Materials Chemistry and Physics, 201, 139-146., 2017 Линк
607. Carp, O., Tirsoaga, A., Ene, R., Ianculescu, A., Negrea, R. F., Chesler, P., ... & Birjega, R.. Facile, high yield ultrasound mediated protocol for ZnO hierarchical structures synthesis: formation mechanism, optical and photocatalytic properties. Ultrasonics Sonochemistry, 36, pp 326-335., 2017 Линк
608. Fuchs, P., Chemical bath deposition of transparent conductive zinc oxide thin films for solar cell applications (Doctoral dissertation), ETH Zurich Research Collection, ETH No. 24156, 2017 Линк
609. Saarimaa, V., Kaleva, A., Nikkanen, J. P., Heinonen, S., Levänen, E., Väisänen, P., ... & Juhanoja, J. (2017). Supercritical carbon dioxide treatment of hot dip galvanized steel as a surface treatment before coating. Surface and Coatings Technology, 331, 137-142, 2017 Линк
610. Shah, J., & Kotnala, R. K. (2017). Rapid green synthesis of ZnO nanoparticles using a hydroelectric cell without an electrolyte. Journal of Physics and Chemistry of Solids, 108, 15-20., 2017 Линк
611. Törne, K. B., Khan, F. A., Örnberg, A., & Weissenrieder, J. (2017). Zn-Mg and Zn-Ag Degradation Mechanism Under Biologically Relevant Conditions. Surface Innovations, 1-41., 2017 Линк
612. Wang Liping, Zheng Huayan, Li Zhong, & Chen Xiong. (2017) Effects of Copper and Zinc Molar Ratio on Phase Structures of Cu / ZnO Precursors and Catalysts. Journal of Taiyuan University of Technology, (2), 156-162., 2017 Линк
page 57/232
613. Levine, K. E., Collins, B. J., Stout, M. D., Wyde, M., Afton, S. E., Essader, A. S., ... & Fernando, R. A. (2017). Characterization of Zinc Carbonate Basic as a Source of Zinc in a Rodent Study Investigating the Effects of Dietary Deficiency or Excess. Analytical Letters, 50(15), 2447-2464., 2017 Линк
614. Yang, X., Chen, H., Meng, Q., Zheng, H., Zhu, Y., & Li, Y. W. (2017). Insights into influence of nanoparticle size and metal–support interactions of Cu/ZnO catalysts on activity for furfural hydrogenation. Catalysis Science & Technology. Catal., 7, 5625-5634, 2017 Линк
615. Qu, J., He, X., Chen, M., Hu, H., Zhang, Q., & Liu, X. (2017). Mechanochemical synthesis of Cu-Al and methyl orange intercalated Cu-Al layered double hydroxides. Materials Chemistry and Physics, 191, 173-180., 2017 Линк
616. Gui Zhenyou. “Selective Oxidation of 5-Hydroxymethylfurfural with Novel Catalysts” (Doctoral Dissertation) East China University of Science and Technology, Chemical Engineering, 2017, Ref. 57, 2017 Линк
167. Radev D., Mihailova B., Konstantinov L.. Raman Spectroscopy Study of Metal-Containing Boron Carbide-Based Ceramics. Solid State Science, 4, 1, 2002, ISSN:1293-2558, DOI:10.1016/S1293-2558(01)01190-6, 37-41. ISI IF:1.991
Цитира се в:
617. Cyril Besnard, A thesis submitted for the degree of Doctor of Philosophy (PhD) , “Silicon doped boron carbide for armour” , IMPERIAL COLLEGE LONDON Department of Materials, , 2017 Линк
168. Weingand, T., Kuba, S., Hadjiivanov, K., Knözinger, H.. Nature and Reactivity of the Surface Species Formed after NO Adsorption and NO + O2 Coadsorption on a WO3–ZrO2 Catalyst. Journal of Catalysis, 209, 2002, DOI:10.1006/jcat.2002.3654, 539-546. ISI IF:6.9
Цитира се в:
618. W. Cui, X. Li, C. Gao, F. Dong and X. Chen, Ternary Ag/AgCl-(BiO) 2 CO 3 composites as high-performance visible-light plasmonic photocatalysts, Catal. Today, 284 (2017) 67, 2017 Линк
619. W. Cui, J. Li, W. Cen, Y. Sun, S.C. Lee and F. Dong, Steering the interlayer energy barrier and charge flow via bioriented transportation channels in g-C3N4: Enhanced photocatalysis and reaction mechanism, J. Catal., 352 (2017) 351 [ISI]., 2017 Линк
620. W. Cui, J. Li, F. Dong, Y. Sun, G. Jiang, W. Cen, S.C. Lee and Z. Wu, Highly efficient performance and conversion pathway of photocatalytic NO oxidation on SrO-clusters amorphous carbon nitride, Environ. Sci. Technol., 51 (2017) 10682 [ISI]., 2017 Линк
621. J. Strunk, M.A. Bañares and I.E. Wachs, Vibrational spectroscopy of oxide overlayers. Top. Catal., 60 (2017) 1577 [ISI]., 2017 Линк
622. H. Wang, W. He, X. Dong, G. Jiang, Y. Zhang, Y. Sun and F. Dong, In situ DRIFT investigation on the photocatalytic NO oxidation mechanism with thermally exfoliated porous gC 3 N 4 nanosheets, RSC Adv., 7 (2017) 19280 [ISI]., 2017 Линк
623. J.C. Yu, J. Lasek, V. Nguyen, Y. Yu, J.C.S. Wu, Visualizing reaction pathway for the photo-transformation of NO2 and N2 into NO over WO3 photocatalyst, Res. Chem. Intermed., 43 (2017) 7159 [ISI]., 2017 Линк
624. W. Zhang, X. Liu, X. Dong, F. Dong and Y. Zhang, Facile synthesis of Bi12 O17 Br2 and Bi4 O5 Br2 nanosheets: In situ DRIFTS investigation of photocatalytic NO oxidation conversion pathway, Chin. J. Catal., 38 (2017) 2030 [ISI]., 2017 Линк
169. Ivanova, D., Nikolov, V., Peshev, P.. Flux growth conditions of Li2BaP2O7 single crystals. Materials Letters, 56, 5, Elsevier, 2002, ISSN:0167-577X, DOI:10.1016/S0167-577X(02)00614-6, 787-792.
page 58/232
SJR:0.85, ISI IF:2.489
Цитира се в:
625. Gao, J., Zhao, P., Zhang, P. Preparation, structure and properties of three new pyrophosphates ACsMP2O7(A = Li+, Na+, M = Co2+, Fe2+) with tetrahedral MO4 geometry (2017) Journal of Alloys and Compounds, 701, pp. 9-15., 2017
170. Hadjiivanov , K., V. Avreyska, Klissurski, D., Ts. Marinova. Surface Species Formed after NO Adsorption and NO+ O2 Coadsorption on ZrO2 and Sulfated ZrO2: An FTIR Spectroscopic Study. Langmuir, 18, American Chemical Society, 2002, DOI:10.1021/la0110895, 1619-1625. ISI IF:4.457
Цитира се в:
626. W. Cui, X. Li, C. Gao, F. Dong and X. Chen, Ternary Ag/AgCl-(BiO) 2 CO 3 composites as high-performance visible-light plasmonic photocatalysts, Catal. Today, 284 (2017) 67-76., 2017 Линк
627. F. Dong, T. Xiong, Y. Sun, L. Lu, Y. Zhang, H. Zhang, H. Huang, Y. Zhou, Z. Wu, Exploring the photocatalysis mechanism on insulators, Appl. Catal. B, 219 (2017) 450-458, 2017 Линк
628. Y. Ji, D. Xu, S. Bai, U.M. Graham, M. Crocker, B. Chen, C. Shi, D. Harris, D. Scapens and J.G. Darab, Pt- and Pd-Promoted CeO2–ZrO2 for Passive NOx Adsorber Applications, Ind. Eng. Chem. Res., 56 (2017) 111-125, 2017 Линк
629. G. Jiang, X. Li, M. Lan, T. Shen, X. Lv, F. Dong and S. Zhang, Monodisperse bismuth nanoparticles decorated graphitic carbon nitride: Enhanced visible-light-response photocatalytic NO removal and reaction pathway, Appl. Catal. B, 205 (2017)532-540, 2017 Линк
630. W. Cui, J. Li, W. Cen, Y. Sun, S.C. Lee and F. Dong, Steering the interlayer energy barrier and charge flow via bioriented transportation channels in g-C3N4: Enhanced photocatalysis and reaction mechanism, J. Catal., 352 (2017) 351 -360, 2017 Линк
631. W. Cui, J. Li, F. Dong, Y. Sun, G. Jiang, W. Cen, S.C. Lee and Z. Wu, Highly Efficient Performance and Conversion Pathway of Photocatalytic NO Oxidation on SrO-ClustersAmorphous Carbon Nitride, Environ. Sci. Technol., 51 (2017) 10682-10690, 2017 Линк
632. X. Li, Y. Sun, T. Xiong, G. Jiang, Y. Zhang, Z. Wu and F. Dong, Activation of amorphous bismuth oxide via plasmonic Bi metal for efficient visible-light photocatalysis, J. Catal., 352 (2017) 102-112, 2017 Линк
633. L. Huang, W. Zhang, K. Chen, W. Zhu, X. Liu, R. Wang, X. Zhang, N. Hu, Y. Suo and J. Wang, Facet-selective response of trigger molecule to CeO2 {1 1 0} for up-regulating oxidase-like activity, Chem. Eng. J., 330 (2017)746 [ISI]., 2017 Линк
634. H. Wang, W. He, X. Dong, G. Jiang, Y. Zhang, Y. Sun and F. Dong, In situ DRIFT investigation on the photocatalytic NO oxidation mechanism with thermally exfoliated porous gC3N4 nanosheets, RSC Adv., 7 (2017) 19280 [ISI]., 2017 Линк
635. B. Lin, S. Chen, F. Dong and G. Yang, A ball-in-ball g-C3N4SiO2 nano-photoreactor for highly efficient H2 generation and NO removal, Nanoscale, 9 (2017) 5273-5279, 2017 Линк
636. Y. Liu, S. Yu, Z. Zhao, F. Dong, X. Dong and Y. Zhou, N-Doped Bi2O2CO3/Graphene Quantum Dot Composite Photocatalyst: Enhanced Visible-Light Photocatalytic NO Oxidation and In Situ DRIFTS Studies, J. Phys. Chem. C, 121 (2017) 12168-12177, 2017 Линк
171. Gravereau, P., Chaminade, J.-P., Pechev, S., Nikolov, V., Ivanova, D., Peshev, P.. Na3La9O3(BO3)8, a new oxyborate in the ternary system Na2O-La2O3-B2O3: Preparation and crystal structure. Solid State
page 59/232
Sciences, 4, 7, Elsevier Masson SAS, 2002, ISSN:1293-2558, DOI:10.1016/S1293-2558(02)01344-4, 993-998. SJR:0.639, ISI IF:1.839
Цитира се в:
637. Bräuchle, S., Huppertz, H. Synthesis and structural characterization of Li3K3Y7(BO3)9 (2017) Journal of Solid State Chemistry, 253, pp. 242-248., 2017
638. Oliveira, L.C., Baffa, O. Optically and thermally stimulated luminescence of CaB6O10:Ce, LiCl: Basic properties (2017) Journal of Luminescence, 188, pp. 180-187., 2017
639. Xia, M., Zhai, K., Lu, J., Sun, Y., Li, R.K. Orthoborates LiCdRE5(BO3)6 (RE = Sm-Lu and Y) with Rare-Earth Ions on a Triangular Lattice: Synthesis, Crystal Structure, and Optical and Magnetic Properties (2017) Inorganic Chemistry, 56 (14), pp. 8100-8105., 2017
640. Atuchin, V.V., Subanakov, A.K., Aleksandrovsky, A.S., Bazarov, B.G., Bazarova, J.G., Dorzhieva, S.G., Gavrilova, T.A., Krylov, A.S., Molokeev, M.S., Oreshonkov, A.S., Pugachev, A.M., Tushinova, Y.L., Yelisseyev, A.P. Exploration of structural, thermal, vibrational and spectroscopic properties of new noncentrosymmetric double borate Rb3NdB6O12 (2017) Advanced Powder Technology, 28 (5), pp. 1309-1315., 2017
641. Bräuchle, S., Huppertz, H. Synthesis and structural characterization of Li3Y(BO3)2 (2017) Zeitschrift fur Naturforschung - Section B Journal of Chemical Sciences, 72 (2), pp. 153-158, 2017
642. Ma, R., Xu, D., Yang, Y., Su, X., Lei, B., Yang, Z., Pan, S. ScMO(BO3) (M = Ca and Cd): New Sc-based oxyborates featuring interesting edge-sharing sandwich-like chains and UV cut-off edges (2017) Dalton Transactions, 46 (43), pp. 14839-14846., 2017
172. Mihaylov, M., Hadjiivanov , K.. FTIR Study of CO and NO Adsorption and Coadsorption on Ni–ZSM-5 and Ni/SiO2. Langmuir, 18, 11, American Chemical Society, 2002, DOI:10.1021/la015739g, 4376-7383. ISI IF:4.457
Цитира се в:
643. E.K. Dann, E.K. Gibson, R.A. Catlow, P. Collier, T.E. Erden, D. Gianolio, C. Hardacre, A. Kroner, A. Raj, A. Goguet and P.P. Wells, Combined In Situ XAFS/DRIFTS Studies of the Evolution of Nanoparticle Structures from Molecular Precursors, Chem. Mater., 29 (2017) 7515-7523, 2017 Линк
644. R. Henry, M. Komurcu, Y. Ganjkhanlou, R.Y. Brogaard, L. Lu, K.-J. Jens, G. Berlier and U. Olsbye, Ethene oligomerization on nickel microporous and mesoporous-supported catalysts: Investigation of the active sites, Catal. Today, 299(2017) 154-163, 2017 Линк
645. T. Tanabe, T. Imai, T. Tokunaga, Nanophase-separated Ni3Nb as an automobile exhaust catalyst, S. Arai, Y. Yamamoto, S. Ueda, G.V. Ramesh, S. Nagao, H. Hirata, S. Matsumoto, T. Fujita and H. Abe, Chem. Sci., 8 (2017) 3374-3378, 2017 Линк
646. Q. Yang, Z. Chen, D. Zhou, W. Shen and S. Naito, Effect of cobalt substitution on nanoporous nickel phosphate VSB-5 catalyst for the catalytic reduction of NO by H2 , Catal. Today, 297(2017) 64-69, 2017 Линк
173. T. Venkov, Hadjiivanov , K., Klissurski, D.. IR Spectrtoscopy Study of NO Adsorption and NO + O2 Coadsorption on Al2O3. Physical Chemistry Chemical Physics, 4, Royal Society of Chemistry, 2002, DOI:10.1039/B111396H, 2443-2448. ISI IF:4.493
Цитира се в:
647. M. Barreau, Étude de la réduction catalytique sélective (SCR) des NOx par un mélange éthanol-ammoniac, Ph. D. Thesis, Université de Poitiers, France, 2017 [GB]., 2017
648. S. Najafishirtari, Nanoparticles for Technological Applications, Ph. D. Thesis, Universita’ degli Studi di Genova, Genova, Italy and Universität Regensburg, Regensburg, Germany,
page 60/232
2017, 2017
649. C. Yu, B. Huang, L. Dong, F. Chen and X. Liu, In situ FT-IR study of highly dispersed MnOx/SAPO-34 catalyst for low-temperature selective catalytic reduction of NOx by NH 3, Catal. Today, 281 (2017) 610 [ISI]., 2017 Линк
650. X. Cheng, X. Zhang, M. Zhang, P. Sun, Z. Wang, C. Ma, A simulated rotary reactor for NO x reduction by carbon monoxide over Fe/ZSM-5 catalysts, Chem. Eng. J., 307 (2017) 24, 2017 Линк
174. Hadjiivanov , K., H. Knözinger, Mihaylov, M.. FTIR Study of CO Adsorption on Ni–ZSM-5. J. Phys. Chem. B, 106, 10, American Chemical Society, 2002, DOI:10.1021/jp0132782, 2618-2624. ISI IF:2.693
Цитира се в:
651. V. Sadykov, S. Pavlova, E. Smal, M. Arapova, M. Simonov, N. Mezentseva, V. Rogova, T. Glazneva, A. Lukashevich, A.-C. Roger, K. Parkhomenko, A. van Veen and O. Smorygo, Structured catalysts for biofuels transformation into syngas with active components based on perovskite and spinel oxides supported on Mg-doped alumina, Catal. Today, 293-294 (2017) 176 [ISI]., 2017 Линк
652. S. Suganuma, K. Nakamura, A. Okuda, N. Katada, Enhancement of catalytic activity for toluene disproportionation by loading Lewis acidic nickel species on ZSM-5 zeolite, Mol. Catal., 435 (2017) 110 [ISI]., 2017 Линк
653. A. Wolfbeisser, G. Kovács, S.M. Kozlov, K. Föttinger, J. Bernardic, B. Klötzerd, K.M. Neyman and G. Rupprechter, Surface composition changes of CuNi-ZrO2 during methane decomposition: An operando NAP-XPS and density functional study, Catal Today, 283 (2017) 134–143, 2017 Линк
654. D.P. Gamliel, G.M. Bollas and J.A. Valla, Bifunctional Ni‐ZSM‐5 Catalysts for the Pyrolysis and Hydropyrolysis of Biomass, Ehergy Technol., 5 (2017) 172 [ISI]., 2017 Линк
175. Radostina Stoyanova, Ekaterina Zhecheva, Geoffrey Bromiley, Tiziana Boffa Ballaran, Ricardo Alcántara, Juan-Isidro Corredor, José-Luis Tirado. High-pressure synthesis of Ga-substituted LiCoO2 with layered crystal structure. J. Mater. Chem., 12, 2002, DOI:10.1039/B201030E, 2501-2506. ISI IF:8.256
Цитира се в:
655. Chandran, C. V., Volgmann, K., Nakhal, S., Uecker, R., Witt, E., Lerch, M., & Heitjans, P. (2017). Local Ion Dynamics in Polycrystalline β-LiGaO2: A Solid-State NMR Study. Zeitschrift für Physikalische Chemie, 231(7-8), 1443-1453., 2017 Линк
176. Koseva, I., Peshev, P., Pechev, S., Gravereau, P., Chaminade, J.-P.. A new strontium lithium titanium oxide, SrLi2Ti6O14: Crystal growth and structure determination. Zeitschrift fur Naturforschung - Section B Journal of Chemical Sciences, 57, 2002, ISSN:09320776, 512-518. SJR:0.248, ISI IF:0.622
Цитира се в:
656. Yu, Haoxiang, et al. "Comparative study of Pb 1-x Ba x Li 2 Ti 6 O 14 (0≤ x≤ 1) as lithium storage materials for secondary batteries." Journal of Power Sources 357 (2017): 179-187., 2017
657. Wu, Yaoyao, et al. "Preparation and characterization of SrLi 2 Ti 6 O 14 C/Ag as lithium storage anode material for rechargeable batteries." Ceramics International 43.9 (2017): 7231-7236., 2017
658. Qian, Shangshu, et al. "Improve the lithium storage performance of SrLi 2 Ti 6 O 14 anode material by trivalent metal ion doping." Journal of Power Sources 343 (2017): 329-337., 2017
659. Lan, Hua, et al. "Sr 1− x Na 2x Li 2 Ti 6 O 14 (0≤ x≤ 1) as anode materials for rechargeable
page 61/232
Li-ion batteries." Ceramics International 43.1 (2017): 1552-1557., 2017
660. Inagaki, Hiroki, and Norio Takami. "Active material, nonaqueous electrolyte battery, and battery pack." U.S. Patent No. 9, 812, 704. 7 Nov. 2017., 2017
177. Todorovska, R., Groudeva-Zotova St., Todorovsky D., Tzvetkov G., Stefanov, P.. Highly crystalline Y3Fe5O12 thin films by citric spray pyrolysis. JOURNAL OF MATERIALS SYNTHESIS AND PROCESSING, 10, 5, 2002, DOI:10.1023/A:1023050311111, 283-288. ISI IF:0.359
Цитира се в:
661. Novozhilova, Y.V., Denisov, G.G., Glyavin, M.Yu., Ryskin, N.M., Bakunin, V.L., Bogdashov, A.A., Melnikova, M.M., Fokin, A.P. Gyrotron frequency stabilization under the influence of external monochromatic signal or wave reflected from the load: Review (2017) Izvestiya Vysshikh Uchebnykh Zavedeniy. Prikladnaya Nelineynaya Dinamika, 25 (1), pp. 4-34., 2017 Линк
662. Sakharov, V.K., Khivintsev, Y.V., Vysotskii, S.L., Stognij, A.I., Dudko, G.M., Filimonov, Y.A. Influence of input signal power on magnetostatic surface waves propagation in yttrium-iron garnet films on silicon substrates (2017) Izvestiya Vysshikh Uchebnykh Zavedeniy. Prikladnaya Nelineynaya Dinamika, 25 (1), pp. 35-51., 2017 Линк
178. Hadjiivanov, K., Ivanova, E., Kantcheva, M., Ciftlikli, E., Klissurski, D., Dimitrov, L., Knözinger, H.. FTIR Study of Low-temperature CO Adsorption on Mn–ZSM-5 and MnY Zeolites. Factors Determining Formation of Site-specified Mn2+(CO)2 Geminal Species. Catalysis Communications, 3, 8, Elsevier, 2002, ISSN:1566-7367, 313-319. ISI IF:3.699
Цитира се в:
663. E. Burzo, Cond. Matter, 2716 (2017) 1190 [ISI]., 2017
664. R. Baran, L. Valentin, J.-M. Krafft, T. Grzybek, P. Glatzel and S. Dzwigaj, Influence of the nature and environment of manganese in Mn-BEA zeolites on NO conversion in selective catalytic reduction with ammonia, Phys. Chem. Chem. Phys., 19 (2017) 13553 [ISI]., 2017 Линк
179. Mehandjiev, D., Cheshkova, K., Naydenov, A., Georgesku, V.. Catalytic oxidation of CO and C6H6 on alumina-supported Cu-Cr and Co-Cr oxide catalysts in the presence of ozone. Reaction Kinetics, Mechanisms and Catalysis, 76, 2, Springer, 2002, ISSN:01331736, DOI:10.1023/A:1016536011704, 287-293. ISI IF:0.93
Цитира се в:
665. Yang Liu and Pengyi Zhang , Removing Surface Hydroxyl Groups of Ce-Modified MnO2 To Significantly Improve Its Stability for Gaseous Ozone Decomposition, J. Phys. Chem. C, 2017, 121 (42), pp 23488–23497, 2017 Линк
666. Yang Liu, Pengyi Zhang, Catalytic decomposition of gaseous ozone over todorokite-type manganese dioxides at room temperature: Effects of cerium modification, Applied Catalysis A: General, Volume 530, 25 January 2017, Pages 102-110, 2017 Линк
180. Zhecheva, E., Stoyanova, R., Jimenez-Mateo, J. M., Alcantara, R., Lavela, P., Tirado, J. L.. EPR study on petroleum cokes annealed at different temperatures and used in lithium and sodium batteries. Carbon, 40, 13, 2002, ISSN:0008-6223, 2301-2306. ISI IF:6.196
Цитира се в:
667. Wu, C. M., Pan, P. I., Cheng, Y. W., Liu, C. P., Chang, C. C., Avdeev, M., & Lin, S. K. (2017). The mechanism of the sodiation and desodiation in Super P carbon electrode for sodium-ion battery. Journal of Power Sources, 340, 14-21., 2017 Линк
page 62/232
181. Stoychev, D., Stefanov, P., Nicolova, D., Valov, I., Marinova, Ts.. Chemical Composition and Corrosion Resistance of Passive Chromate Films Formed on Stainless Steels 316 L and 1.4301. Materials Chemistry and Physics, 73, 2-3, Elsevier, 2002, ISSN:02540584, DOI:10.1016/S0254-0584(01)00376-5, 252-258. SJR:0.818, ISI IF:2.259
Цитира се в:
668. Syed, J.A., Super-hydrophobic multilayer coatings with layer number tuned swapping in surface wettability and redox catalytic anti-corrosion application, Scientific Reports, Open Access Volume 7, Issue 1, 1 December 2017, Article number 4403, 2017 Линк
182. Iordanova R., Lefterova E., Uzunov I., Dimitriev Y., Klissurski D.. Non-isothermal crystallization kinetics of V2O5-MoO3-Bi2O3 glasses. J Therm Anal Calorim, 70, 2, Springer Netherlands, 2002, ISSN:1388-6150, 393-404. SJR:0.59, ISI IF:2.209
Цитира се в:
669. Li, R., Zhu, J., Zhou, W., Cheng, X., Liu, F., "Preparation and encapsulation performance of Al2O3-SiO2-B2O3 glass-ceramic for high temperature thermal storage" (2017) Applied Thermal Engineering, 110 (5), 985-990, 2017 Линк
183. Zhecheva, E., Stoyanova, R., Alcantara, R., Lavela, P., Tirado, J. L.. Cation order/disorder in lithium transition-metal oxides as insertion electrodes for lithium-ion batteries. Pure and Applied Chemistry, 74, 10, 2002, ISSN:0033-4545, 1885-1894. ISI IF:2.492
Цитира се в:
670. Wu, H., Liang, X. "Modification of Li-rich Manganese Cathode Material Li1.2Ni0.13Co0.13Mn0.54O2by Zinc-ion Doping". Cailiao Daobao/Materials Review, 31 (3), pp. 25-28, 2017, 2017 Линк
671. Erickson, E. M., Sclar, H., Schipper, F., Liu, J., Tian, R., Ghanty, C., ... & Shin, J. Y. (2017). High‐Temperature Treatment of Li‐Rich Cathode Materials with Ammonia: Improved Capacity and Mean Voltage Stability during Cycling. Advanced Energy Materials., Volume 7, Issue 18, 2017, 1700708., 2017 Линк
672. Lee, E., Iddir, H., & Benedek, R. (2017). Rapidly convergent cluster expansion and application to lithium ion battery materials. Physical Review B, 95(8), 085134., 2017 Линк
673. Vu, D. L., Choi, J. Y., Kim, W. B., Lee, J. J., & Lee, J. W. (2017). Layered LiNi0. 8Co0. 1Mn0. 1O2 Prepared through Calcination in Air with Preoxidized Precursor. Journal of The Electrochemical Society, 164(12), A2670-A2676., 2017 Линк
184. Hadjiivanov , K., G. Vayssilov. Characterization of Oxide Surfaces and Zeolites by Carbon Monoxide as an IR Probe Molecule. Advances in Catalysis, 47, Elsevier, 2002, ISSN:978-0-12-802126-2, DOI:10.1016/S0360-0564(02)47008-3, 307-511. ISI IF:8.143
Цитира се в:
674. P.S.F. Mendes, A.F.C. Gregorio, A. Daudin, C. Bouchy, J.M. Silva and M.F. Ribeiro, Elucidation of the zeolite role on the hydrogenating activity of Pt-catalystsр Catal. Commun., 89 (2017) 152-155, 2017 Линк
675. Z. Qu, Y. Li, S. Huang, P. Chen and X. Ma, Clarification of copper species over Cu-SAPO-34 catalyst by DRIFTS and DFT study of CO adsorption, Sci. China Chem., 60 (2017) 912 [ISI]., 2017 Линк
676. Q. Zhang, W. Ding, D. Wang, D. Zhao, C. Yang and Z. Zhang, Acta Petrol. Sin., 33 (2017) 1 [ISI]., 2017
677. P.C. de Paula Caldas, Propriedades estruturais e eletrônicas de nanopartículas de Cu modificam a estrutura superficial do cobre e influenciam na atividade catalítica para a
page 63/232
reação deslocamento gás água, Ph. D. Thesis, Federal University of São Carlos, Brazil, 2017 [GS], 2017 Линк
678. E. Iwanek, U. Ulkowska and M. Gliński, Magnesium oxide modified with various iodine-containing compounds––Surface studies, Surf. Interface Anal., 49 (2017) 945-952, 2017 Линк
679. S.M. Rogers, Designing Metal Nanoparticles for Catalysis, Ph. D. Thesis, University College London, London, UK, 2017 [GS], 2017 Линк
680. R. Baran, L. Valentin, J.-M. Krafft, T. Grzybek, P. Glatzel and S. Dzwigaj, Influence of the nature and environment of manganese in Mn-BEA zeolites on NO conversion in selective catalytic reduction with ammonia, Phys. Chem. Chem. Phys., 19 (2017) 13553-13561, 2017 Линк
681. K. Chen, M. Abdolrhamani, E. Sheets, J. Freeman, G. Ward and J.L. White, Direct Detection of Multiple Acidic Proton Sites in Zeolite HZSM-5, Journal of the American Chemical Society 139(51), pp. 18698-18704, 2017 Линк
682. M. Jabłońska, M. Nocuń, K. Gołąbek and R. Palkovits, Effect of preparation procedures on catalytic activity and selectivity of copper-based mixed oxides in selective catalytic oxidation of ammonia into nitrogen and water vapour, Appl. Surf. Sci., 423 (2017) 498-508, 2017 Линк
683. M. Benzaqui, Synthesis of Metal-Organic Framework nanoparticles and mixed-matrix membrane preparation for gas separation and CO2 capture, Ph. D. Thesis, l’Université Versailles, Saint-Quentin en Yvelines, France, 2017, 2017
684. V.N. Panchenko, E.A. Paukshtis, D.Yu. Murzin and I.L. Simakova, Solid Base Assisted n-Pentanol Coupling over VIII Group Metals: Elucidation of the Guerbet Reaction Mechanism by DRIFTS, Ind. Eng. Chem. Res., 56 (45)(2017) 13310–13321, 2017 Линк
685. A.F. Sanchez, Density Functional Modelling of Materials for Fuel Cell Catalysts with Reduced Content of Critical Components, Ph. D. Thesis, Universitat de Barcelona, Barcelona, Spain, 2017, 2017 Линк
686. N.A. Khan, E.M. Kennedy, B.Z. Dlugogorski, A.A. Adesina and M. Stockenhuber, Cobalt Species Active for Nitrous Oxide (N2O) Decomposition within a Temperature Range of 300–600°C, Austral. J. Chem., 70 (2017) 1138-1145, 2017 Линк
687. A.V. Marikutsa, N.A. Vorobeva, M.N., Rumyantseva, A.M. Gaskov, Active sites on the surface of nanocrystalline semiconductor oxides ZnO and SnO2 and gas sensitivity, Russian Chemical Bulletin, 66 (2017) 1728, 2017 Линк
688. M. Richard, D. Duprez, N. Bion and F. Can, Investigation of Methane Oxidation Reactions Over a Dual-Bed Catalyst System using 18O Labelled DRIFTS coupling, ChemSusChem, 10 (2017) 210 -219, 2017 Линк
689. Y. Cao, L. Liu, F. Gao, L. Dong and Y. Chen, Understanding the effect of CuO dispersion state on the activity of CuO modified Ce0.7Zr0.3O2 for NO removal, Appl. Surf. Sci., 403 (2017) 347-355, 2017 Линк
690. M.H. Kim, J.H. Park and Y.S. Hong, Characterization of Supported Platinum Nanocrystallites with Different Sizes and These Effects on a Model Reaction, Top. Catal., 60 (2017) 773-781, 2017 Линк
691. N.M. Wilson, Mechanistic insights into the direct synthesis of H2O2 on transition metal catalysts, Ph. D. Thesis, University of Illinois, Urbana, 2017, 2017 Линк
692. S.M. Rogers, C.R.A. Catlow, C.E. Chan-Thaw, A. Chutia, N. Jian, R.E. Palmer, M. Perdjon, A. Thetford, N. Dimitratos, A. Villa and P.P. Wells, Tandem Site- and Size-Controlled Pd Nanoparticles for the Directed Hydrogenation of Furfural, ACS Catal., 7 (2017) 2266-2274, 2017 Линк
693. C. Le Guillouzer, Etude spectroscopique de membranes à matrice mixte polymère/MOF
page 64/232
pour la séparation CO2/N2, Normandie Universite, Caen, France, 2017, 2017 Линк
694. J.D.V. Castro, Valoracion de moléculas plataforma derivadas de biomasa mediante aminacion reductiva utilizando nanopartículas metálicas como catalizadores heterogéneos, Ph. D. Thesis, Universitat Politecnica de Valencia, Valencia, Spain, 2017, 2017 Линк
695. T.R. Sahoo, M. Armandi, R. Arletti, M. Piumetti, S. Bensaid, M. Manzoli, S.R. Panda, B. Bonelli, Pure and Fe-doped CeO2 nanoparticles obtained by microwave assisted combustion synthesis: Physico-chemical properties ruling their catalytic activity towards CO oxidation and soot combustion, Appl. Catal. B, 211 (2017) 31-45, 2017 Линк
696. A. Santiago-Portillo, S. Navalon, P. Concepcion, M. Álvaro and H. García, Influence of Terephthalic Acid Substituents on the Catalytic Activity of MIL-101(Cr) in Three Lewis Acid Catalyzed Reactions, ChemCatChem, 9 (2017) 2506-2511, 2017 Линк
697. T. Liu, Y. Yao, L. Wei, Z. Shi, L. Han, H. Yuan, B. Li, L. Dong, F. Wang and C.-Z. Sun, Preparation and Evaluation of Copper–Manganese Oxide as a High-Efficiency Catalyst for CO Oxidation and NO Reduction by CO, J. Phys. Chem. C, 121 (2017) 12757-12770, 2017 Линк
698. M. Chai, X. Liu, L. Li, G. Pei, Y. Ren, Y. Su, H. Cheng, A. Wang and T. Zhang, SiO2-supported Au-Ni bimetallic catalyst for the selective hydrogenation of acetylene, Chin. J. Catal., 38 (2017) 1338-1346, 2017 Линк
699. Y. Lykhach, A. Bruix, S. Fabris, V. Potin, I. Matolinova, V. Matolín, J. Libuda and K.M. Neyman, Oxide-based nanomaterials for fuel cell catalysis: the interplay between supported single Pt atoms and particles , Catal. Sci. Technol., 7 (2017) 4315-4345, 2017 Линк
700. J. Schumann, J. Kröhnert, E. Frei, R. Schlögl and A. Trunschke, IR-Spectroscopic Study on the Interface of Cu-Based Methanol Synthesis Catalysts: Evidence for the Formation of a ZnO Overlayer, Top. Catal., 19-20 (2017) 1735–1743, 2017 Линк
701. R.J. Chimentão, B.C. Miranda, J. Szanyi, C. Sepulveda, J.B.O. Santos, J.V.S. Correa, J. Llorca, F. Medina, Sources of deactivation during glycerol conversion on Ni/γ-Al2O3, Mol. Catal., 435 (2017) 49-57, 2017 Линк
702. M. Manzoli, F. Vindigni, T. Tabakova, C. Lamberti, D. Dimitrov, K. Ivanov, A. Giovanni and G. Agostini, Structure–reactivity relationship in Co3O4 promoted Au/CeO2 catalysts for the CH3OH oxidation reaction revealed by in situ FTIR and operando EXAFS studies, J. Mater. Chem. A, 5 (2017) 2083, 2017 Линк
703. M. Compagnoni, Catalytic and photocatalytic processes for the production of alternative fuels and chemicals from renewable sources, Ph. D. Thesis, Università degli Studi di Milano, Milano, Italy, 2017, 2017 Линк
704. W. Shen, D. Mao, Z. Luo and J. Yu, CO oxidation on mesoporous SBA-15 supported CuO–CeO2 catalyst prepared by a surfactant-assisted impregnation method, RSC Adv., 7 (2017) 27689 - 27698, 2017 Линк
705. L. Lemaitre, A. Berliet, S. Maury and M. Rivallan, Surface modifications of cobalt Fischer Tropsch catalyst followed by operando DRIFT and chemometrics, Catal. Today, 283 (2017) 172, 2017 Линк
706. C. Yang and C. Wöll, IR spectroscopy applied to metal oxide surfaces: adsorbate vibrations and beyond, Adv. Phys., 2 (2017) 373-408, 2017 Линк
707. P.S.F. Mendes, A. Taleb, A. Gay, A. Daudin, C. Bouchy, J. Silva and M. Ribeiro, Nanoscale insights into Pt-impregnated mixtures of zeolites, J. Mater. Chem. A, 5 (2017) 16822, 2017 Линк
708. C. Slostowski, S. Marre, P. Dagault, O. Babot, T. Toupance and C. Aymonier, CeO2 nanopowders as solid sorbents for efficient CO2 capture/release processes, J. CO2 Util.,
page 65/232
20 (2017) 52-58, 2017 Линк
709. L. DeRita, S. Dai, K. Lopez-Zepeda, N. Pham, G.W. Graham, X. Pan and P. Christopher, Catalyst Architecture for Stable Single Atom Dispersion Enables Site-Specific Spectroscopic and Reactivity Measurements of CO Adsorbed to Pt Atoms, Oxidized Pt Clusters, and Metallic Pt Clusters on TiO2, J. Am. Chem. Soc., 139 (2017) 14150-14165, 2017 Линк
710. S. Najafishirtari, Nanoparticles for Technological Applications, Universita’ degli Studi di Genova, Genova, Italy and Universität Regensburg, Regensburg, Germany, 2017 Линк
711. L. Smoláková, K. Frolich, J. Kocík, O. Kikhtyanin and L. Capek, Surface Properties of Hydrotalcite-Based Zn(Mg)Al Oxides and Their Catalytic Activity in Aldol Condensation of Furfural with Acetone, Ind. Eng. Chem. Res., 56 (2017) 4638-4648, 2017 Линк
712. F. Yan, C. Zhao, L. Yi, J. Zhang, B. Ge, T. Zhang and W. Li, Effect of the degree of dispersion of Pt over MgAl2O4 on the catalytic hydrogenation of benzaldehyde, Chin. J. Catal., 38 (2017) 1613 [ISI]., 2017 Линк
713. J.H. Song, S. Yoo, J. Yoo, S. Park, M.Y. Gim, T.H. Kim and I.K. Song, Hydrogen production by steam reforming of ethanol over Ni/Al2O3-La2O3 xerogel catalysts, Mol. Catal., 434 (2017) 123-133, 2017 Линк
714. D. Demir, Carbon Monoxide Adsorbtion and Carbon Monoxide Oxidation Studies on Thiolate Supported Gold Nanoclusters Dispensed on Metallic Oxides, Ph. D. Thesis, Technischen Universität Wien, Wien, Austria, 2017 [GS], 2017 Линк
715. M. Németh, D. Sranko, J. Károlyi, F. Somodi, Z. Schay, G. Sáfrán, I. Sajoc and A. Horváth, Na-promoted Ni/ZrO2 dry reforming catalyst with high efficiency: details of Na2O–ZrO2–Ni interaction controlling activity and coke formation, Catal. Sci. Technol., 7 (2017) 5386-5401, 2017 Линк
716. T. Tabakova, E. Kolentsova, D. Dimitrov, K. Ivanov, M. Manzoli, A.M. Venezia, Y. Karakirova, P. Petrova, D. Nihtianova and G. Avdeev, CO and VOCs Catalytic Oxidation Over Alumina Supported Cu–Mn Catalysts: Effect of Au or Ag Deposition, Top Catal 60 (1–2) (2017) 110–122., 2017 Линк
717. K. Föttinger, W. Emhofer, D. Lennon and G. Rupprechter, Adsorption and Reaction of CO on (Pd–)Al2O3 and (Pd–)ZrO2: Vibrational Spectroscopy of Carbonate Formation , Top. Catal., Vol. 60, Issue 19–20, (2017) pp 1722–1734, 2017 Линк
718. J.D. Vidal, M.J. Climent, A. Corma, P. Conception and S. Iborra, One‐Pot Selective Catalytic Synthesis of Pyrrolidone Derivatives from Ethyl Levulinate and Nitro Compounds, ChemSusChem, 10 (2017) 119–128, 2017 Линк
719. E. Dominguez Garcia, Effect of the Support on the Activity and Morphology of Hydrodesulfurization Catalysts, Ph. D. Thesis, Normandie Universite, Caen, France, 2017 [GS], 2017 Линк
720. M. Chebbi, S. Chibani, J.-F. Paul, L. Cantrel and M. Badawi, Evaluation of volatile iodine trapping in presence of contaminants: A periodic DFT study on cation exchanged-faujasite, Microporous Mesoporous Mater., 239 (2017) 111 [ISI]., 2017 Линк
721. C. Liu, S.K. Iyemperumal, N.A. Deskins and G. Li, Photocatalytic CO2 reduction by highly dispersed Cu sites on TiO2, J. Photon. Energy, 7 (2017) 12004 [ISI]., 2017 Линк
722. N.A.B.A. Fatah, n-Heptane Isomerization over Platinum and Phosphorus Supported on Modified Molybdenum Oxide-Mesoporous Silica, Ph. D. Thesis, Universiti Teknologi Malaysia, Skudai, Malaysia, 2017 [GS], 2017 Линк
723. M. Tang, S. Wen and X. Tong, CAUSTIC-DIGESTED STARCH AND ITS ADSORPTION ON HEMATITE, Physicochem. Probl. Miner. Process., 53 (2017) 69 [GS]., 2017 Линк
724. L. Nikoshvili, A. Bykov, T. Khudyakova, T. La Grange, F. Héroguel, J.S. Luterbacher, V.G. Matveeva, E.M. Sulman, P.J. Dyson and L. Kiwi-Minsker, Promotion Effect of Alkali Metal Hydroxides on Polymer-Stabilized Pd Nanoparticles for Selective Hydrogenation of C–C
page 66/232
Triple Bonds in Alkynols, Ind. Eng. Chem. Res., 56(45) (2017)13219-13227, 2017 Линк
725. E. Garrone, M.R. Delgado, B. Bonelli and C.O. Arean, Probing Gas Adsorption in Zeolites by Variable-Temperature IR Spectroscopy: An Overview of Current Research, Molecules, 22 (2017) 1557, 2017 Линк
726. R.M. Kennedy, Support and Overcoating Effects on Selective Catalysis of Platinum Nanoparticle Model Catalysts, Ph. D. Thesis, Northwestern University, Evanston, USA, 2017 [GS], 2017 Линк
727. A. Gould, Properties of bimetallic AuAg nanoparticles for H2 production, Ph. D. Thesis, University College London, London, UK, 2017, 2017 Линк
728. M.J. Hazlett, M. Moses-Debusk, J.E. Parks II, L.F. Allard, W.S. Epling, Kinetic and mechanistic study of bimetallic Pt-Pd/Al2O3 catalysts for CO and C3H6 oxidation, Appl. Catal. B, 202 (2017) 404-417, 2017 Линк
729. A. Kharchenko, Properties of copper species stabilized in zeolite nanocrystals, Ph. D. Thesis, University of Normandy, Caen, France, 2017 [GS], 2017 Линк
730. A.M. Hernández-Giménez, J. Ruiz-Martínez, B. Puértolas, J. Pérez-Ramírez, P.C.A. Bruijnincx and B.M. Weckhuysen, Operando Spectroscopy of the Gas-Phase Aldol Condensation of Propanal over Solid Base Catalysts , Top. Catal., 60 (2017) 1522-1536, 2017 Линк
731. H. Olivier-Bourbigou, C. Chizallet, F. Dumeignil, P. Fongarland, C. Geantet, P. Granger, F. Launay, A. Löfberg, P. Massiani, F. Maugé, A. Ouali, A.-C. Roger, Y. Schuurman, N. Tanchoux, D. Uzio, F. Jérôme, D. Duprez and C. Pinel, Cover Picture: The Pivotal Role of Catalysis in France: Selected Examples of Recent Advances and Future Prospects, ChemCatChem, 9 (2017) 2029, 2017 Линк
732. E. Koudelková, Carbonylic species in alkali-metal exchanged zeolites, Ph. D. Thesis, University of Pardubice, Pardubice, Czech Republic, 2017 [GS], 2017 Линк
733. А. Марикуца, Н. Воробьева, М. Румянцева и А. Гаськов, АКТИВНЫЕ ЦЕНТРЫ НА ПОВЕРХНОСТИ НАНОКРИСТАЛЛИЧЕСКИХ ПОЛУПРОВОДНИКОВЫХ ОКСИДОВ ZNO, SNO2 И ГАЗОВАЯ ЧУВСТВИТЕЛЬНОСТЬ, Изв. акад. наук, сер. хим., 10 (2017) 1728-1764, 2017 Линк
734. P.C.P. Caldas, J.M.R. Gallo, A. Lopez-Castillo, D. Zanchet and J.M.C. Bueno, The Structure of the Cu–CuO Sites Determines the Catalytic Activity of Cu Nanoparticles, ACS Catal., 7 (2017) 2419-2424, 2017 Линк
735. I. Ogino, P. Serna and B.C. Gates, Supported Catalysts, in Handbook of Solid State Chemistry, 2017, 313., 2017 Линк
736. J.C.A. Manco, Preparation of Catalysts for Olefin Oligomerization Reaction, Ph. D. Thesis, Universidad de Antioquia, Medellín, Colombia, 2017, 2017 Линк
737. A.S. Hoffman, D. Sokaras, S. Zhang, L.M. Debefve, C. Fang, A. Gallo, T. Kroll, D.A. Dixon, S.R. Bare and B.C. Gates, Front Cover: High-Energy-Resolution X-ray Absorption Spectroscopy for Identification of Reactive Surface Species on Supported Single-Site Iridium Catalysts , Chem. Europ. J., 23 (2017) 14760, 2017 Линк
738. L.M. Kustov, A.L. Tarasov, O.P. Tkachenko and G.I. Kapustin, Nickel–Alumina Catalysts in the Reaction of Carbon Dioxide Re-Forming of Methane under Thermal and Microwave Heating, Ind. Eng. Chem. Res., (2017) 56 (45), 13034–13039, 2017 Линк
739. P. Concepcion, M. Boronat, R. Millán, M. Moliner and A. Corma, Identification of Distinct Copper Species in Cu-CHA Samples Using NO as Probe Molecule. A Combined IR Spectroscopic and DFT Study Top. Catal., 60 (2017) 1653–1663, 2017 Линк
740. F. Azzolina-Jury and F. Thibault-Starzyk, Mechanism of Low Pressure Plasma-Assisted CO2 Hydrogenation Over Ni-USY by Microsecond Time-resolved FTIR Spectroscopy, Top. Catal., 60 (2017) 1709-1720, 2017 Линк
page 67/232
741. E.D. Garcia, Εffect οf the suppοrt οn the activity and mοrphοlοgy οf hydrοdesulfurizatiοn catalysts, Ph. D. Thesis, Normandie Université, Caen, France, 2017 [GS]., 2017
742. C. Massué, V. Pfeifer, M. Van Gastel, J. Noack, G. Algara-Siller, S. Cap and R. Schlögl, Reactive Electrophilic OI- Species Evidenced in High-Performance Iridium Oxohydroxide Water Oxidation Electrocatalysts ChemSusChem, 10 (2017) 4786, 2017 Линк
743. S. Saedy, D. Palagin, O. Safonova, J. A. van Bokhoven, A.A. Khodadadi and Y. Mortazavi, Understanding the Mechanism of Synthesis of Pt3Co Intermetallic Nanoparticles via Preferential Chemical Vapor Deposition , J. Mater. Chem. A, 5 (2017) 24396-24406, 2017 Линк
185. Heid, R., Bohnen, K.P., Moritz, T., Kostov, K.L., Menzel, D., Widdra, W.. Anomalous surface lattice dynamics of a simple hexagonal close-packed surface. Physical Review B, 66, 16, American Physical Society, 2002, DOI:10.1103/PhysRevB.66.161406, 161406(1)-161406(4). ISI IF:3.836
Цитира се в:
744. Shakouri, K., Behler, J., Meyer, J. and Kroes, G.J., 2017. Accurate Neural Network Description of Surface Phonons in Reactive Gas-Surface Dynamics: N2+ Ru (0001). The Journal of Physical Chemistry Letters, 2017, 8 (10), pp 2131–2136., 2017
186. Kovacheva, D., Gadjov, H., Petrov, K., Mandal, S., Lazarraga, M.G., Pascual, L., Amarilla, J.M., Rojas, R.M., Herrero, P., Rojo, J.M.. Synthesizing nanocrystalline LiMn2O4 by a combustion route. Journal of Materials Chemistry, 12, 4, 2002, ISSN:0959-9428, DOI:10.1039/b107669h, 1184-1188. ISI IF:6.626
Цитира се в:
745. Etacheri, Vinodkumar. "Sol-Gel Processed Cathode Materials for Lithium-Ion Batteries." Sol-Gel Materials for Energy, Environment and Electronic Applications. Springer International Publishing, 2017. 155-195., 2017 Линк
746. He, Dingzeng, et al. "Sol-Gel Combustion Synthesis of Li1. 2Mn0. 54Ni0. 13Co0. 13O2 as Cathode Materials for Lithium Ion Batteries." INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE 12.1 (2017): 455-465., 2017 Линк
747. Han, Yajun, et al. "Study on the Preparation of Cr‐based Catalysts Doped by Zn using Sol–Gel Auto‐Combustion Method and Its Application for Synthesis of 1‐Chloro‐2, 3, 3, 4, 4, 5, 5‐heptafluorocyclopentene." Journal of the Chinese Chemical Society 64.10 (2017): 1128-1138., 2017 Линк
748. Cui, Xiaoling, et al. "Convenient synthesis and electrochemical performance investigation of nano-sized LiMn2O4." Journal of Materials Science: Materials in Electronics 28.12 (2017): 8529-8536., 2017 Линк
749. Бузанов, Григорий Алексеевич, et al. "ФАЗОВЫЕ РАВНОВЕСИЯ С УЧАСТИЕМ ТВЕРДЫХ РАСТВОРОВ В СИСТЕМЕ Li-Mn-O." Журнал неорганической химии 62.5 (2017): 551-558., 2017 Линк
187. Uzunova E., Nikolov G., Mikosch H.. Electronic Structure and Vibrational Modes of Cobalt Oxide Clusters CoOn and their Monoanions. J. Phys. Chem. A, 106, ACS, 2002, DOI:http://dx.doi.org/10.1021/jp0143692, 4104-4115. ISI IF:2.69
Цитира се в:
750. Bijit Choudhuri, Aniruddh Mondal, Shyam Murli, Manohar Dhar, Dwivedi Mohamed Henini Fabrication of novel transparent Co3O4-TiO2 nanowires p-n heterojunction diodes for multiband photodetection applications Journal of Alloys and Compounds Volume 712, 25 July 2017, Pages 7-14, 2017
2003
page 68/232
188. Stoyanova, R., Zhecheva, E., Alcantara, R., Tirado, J.L., Bromiley, G., Bromiley, F., Boffa Ballaran, T.. Lithium/nickel mixing in the transition metal layers of lithium nickelate: high-pressure synthesis of layered Li [Li x Ni 1− x] O 2 oxides as cathode materials for lithium-ion batteries. Solid State Ionics, 161, 3, Elsevier BV, 2003, ISSN:0167-2738, DOI:10.1016/S0167-2738(03)00280-7, 197-204. SJR:0.771, ISI IF:2.561
Цитира се в:
751. Molenda, J., Milewska, A., Zajac, W., Rybski, M., Tobola, J. "Correlation between electronic structure, transport and electrochemical properties of a LiNi1-y-zCoyMnzO2 cathode material". Physical Chemistry Chemical Physics, 19 (37), pp. 25697-25706, 2017, 2017 Линк
752. Yan, H., Li, B., Yu, Z., Chu, W., & Xia, D. (2017). First-Principles Study: Tuning the Redox Behavior of Lithium-Rich Layered Oxides by Chlorine Doping, J. Phys. Chem. C, 2017, 121 (13), pp 7155–7163., 2017 Линк
753. Ajayi, B. P., Thapa, A. K., Cvelbar, U., Jasinski, J. B., & Sunkara, M. K. (2017). Atmospheric plasma spray pyrolysis of lithiated nickel-manganese-cobalt oxides for cathodes in lithium ion batteries. Chemical Engineering Science, 174, 302-310., 2017 Линк
754. Cao, C., Zhang, J., Xie, X. et al. Ionics , Composition, structure, and performance of Ni-based cathodes in lithium ion batteries. Ionics, 23(6) (2017) 1337–1356., 2017 Линк
755. Eremin, R. A., Zolotarev, P. N., Ivanshina, O. Y., & Bobrikov, I. A. (2017). On the Li (Ni, Co, Al) O2 Cathode Delithiation: A Combination of Topological Analysis, Density Functional Theory, Neutron Diffraction and Machine Learning Techniques. J. Phys. Chem. C, 2017, 121 (51), pp 28293–28305., 2017 Линк
189. Föhlisch, A., Menzel, D., Feulner, P., Ecker, M., Weimar, R., Kostov, K.L., Tyuliev, G., Lizzit, S., Larciprete, R., Hennies, H., Wurth, W.. Energy dependence of resonant charge transfer from adsorbates to metal substrates. Chemical Physics, 289, 1, Elsevier, 2003, ISSN:0301-0104, DOI:10.1016/S0301-0104(02)00939-4, 107-115. ISI IF:1.758
Цитира се в:
756. Nisoli, M., Decleva, P., Calegari, F., Palacios, A. and Martín, F., Attosecond Electron Dynamics in Molecules. Chemical Reviews 117 (16), pp 10760–10825, 2017, 2017 Линк
190. Stoychev, D., Valov, I., Stefanov, P., Atanasova, G., Stoycheva, M., Marinova, Ts.. Electrochemical growth of thin La2O3 films on oxide and metal surfaces. Materials Science and Engineering C, 23, 1-2, Elsevier, 2003, ISSN:09284931, DOI:10.1016/S0928-4931(02)00261-8, 123-128. SJR:0.672, ISI IF:3.088
Цитира се в:
757. R.Jbeli, A.Boukhachem, I.Ben Jemaa, N.Mahdhi, F.Saadallah, H.Elhouichet, S.Alleg, M.Amlouk, H.Ezzaouïa, An enhancement of photoluminescence property of Ag doped La2O3 thin films at room temperature, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, Volume 184, 5 September 2017, Pages 71-81, 2017
191. Peshev, P., Stambolova, I., Vassilev, S., Stefanov, P., Blaskov, V., Starbova, K., Starbov, N.. Spray pyrolysis deposition of nanostructured zirconia thin films. Materials Science and Engineering B: Solid-State Materials for Advanced Technology, 2003, ISI IF:2.169
Цитира се в:
758. Gupta, P.K.et al., Prospects of nanostructured ZrO2 as a point-of-care diagnostics(Book Chapter), Advanced Structured Materials, Volume 83, 2017, Pages 285-305, 2017 Линк
759. S Ram et al., Advanced ZrO2-Based Ceramic Nanocomposites for Optical and Other Engineering Applications, Composite Materials pp 497-570, 2017
page 69/232
192. T. Venkov, Hadjiivanov , K., A. Milushev, Klissurski, D.. Fourier Transform Infrared Spectroscopy Study of the Nature and Reactivity of NOx Compounds Formed after Coadsorption of NO and O2 on Cu/ZrO2. Langmuir, 19, American Chemical Society, 2003, DOI:10.1021/la026655q, 3323-3332. ISI IF:4.457
Цитира се в:
760. A. Dhakshinamoorthy A.M. Asiri, P. Concepcion and H. Garcia, Synthesis of borasiloxanes by oxidative hydrolysis of silanes and pinacolborane using Cu3 (BTC)2 as a solid catalyst, Chem. Commun., 53 (2017) 9998-10001, 2017 Линк
193. Hadjiivanov , K., B. Tsyntsarski, T. Venkov, M. Daturi, J. Saussey, J.-C. Lavalley. New Types of Polycarbonyls of Co+ Formed after Interaction of CO with Co–ZSM-5: An FTIR Spectroscopic Study. Physical Chemistry Chemical Physics, 5, Royal Society of Chemistry, 2003, DOI:10.1039/B210476H, 243-245. ISI IF:4.493
Цитира се в:
761. A. Bellmann, Mechanistische Untersuchungen der selektiven katalytischen Reduktion (SCR) von Stickoxiden mit Methan an Co-ZSM-5-Katalysatoren, Ph. D. Thesis, Universität Rostock, Rostock, Germany, 2017 [GS]., 2017
194. Nickolov R., Stankova N., Khristova M., Mehandjiev D.. Copper oxide supported on carbon modified alumina as catalyst for reduction of NO with CO. Journal of Colloid and Interface Science, 265, 1, 2003, ISSN:0021-9797, 121-128. ISI IF:3.782
Цитира се в:
762. Hong, Zhe, Zhong Wang, and Xuebing Li. "Catalytic oxidation of nitric oxide (NO) over different catalysts: an overview." Catalysis Science & Technology 7.16 (2017): 3440-3452., 2017 Линк
763. Sulaiman, Muhammad Azwadi, et al. "Microstructure of CuO Assisted Activated Carbon Adsorbent from Rubber Wood Sawdust Produced by Mechanochemical Processing." Solid State Phenomena. Vol. 264. 2017 Trans Tech Publications, 215-219., 2017 Линк
195. Nikolov, I., Nikolov, V., Peshev, P.. Regions of phase crystallization and new double tungstates in the system Na2O–Al2O3–WO3. Journal of Alloys and Compounds, 351, 1-2, Elsevier, 2003, ISSN:0925-8388, DOI:10.1016/S0925-8388(02)01022-8, 202-207. SJR:1.091, ISI IF:2.999
Цитира се в:
764. Pikulin, K.V., Selivanov, E.N., Galkova, L.I., Gulyaeva, R.I. Features of tungsten extraction from spent catalysts of petroleum organic synthesis (2017) Tsvetnye Metally, (11), pp. 31-36., 2017
196. Hadjiivanov , K., B. Tsyntsarski, T. Venkov, Klissurski, D., M. Daturi, J. Saussey, J.-C. Lavalley. FTIR Spectroscopic Study of CO Adsorption on Co-ZSM-5: Evidence of Formation of Co+(CO)4 Species. Physical Chemistry Chemical Physics, 5, Royal Society of Chemistry, 2003, DOI:10.1039/B300844D, 1695-1702. ISI IF:4.493
Цитира се в:
765. N.A. Khan, E.M. Kennedy, B.Z. Dlugogorski, A.A. Adesina and M. Stockenhuber, Cobalt Species Active for Nitrous Oxide (N2O) Decomposition within a Temperature Range of 300–600°C, Austral. J. Chem., 70 (2017) 1138[ISI]., 2017 Линк
766. N.A. Khan, E.M. Kennedy, B.Z. Dlugogorski, A.A. Adesina, N.H. Syed, N. Ullah, I. Shah, T. Ahmad and M. Stockenhuber, J. Pakistan Inst. Chem. Eng., 45 (2017) 22 [GS]., 2017 Линк
197. Klissurski D., Iordanova R., Milanova M., Radev D., Vassilev S.. Mechanochemically Assisted Synthesis
page 70/232
of Cu(II) Molybdate. Comptes rendus de l’Acade'mie bulgare des Sciences, 56, 8, 2003, ISSN:1310-1331, 39-42. ISI IF:0.4
Цитира се в:
767. Benchikhi, Mohamed, et al. "Investigation of structural transition in molybdates CuMo." (2017) Processing and Application of Ceramics , 11, 21-26, 2017 Линк
198. Balarew, C, Tepavitcharova, S. Double salts formation in the systems MX-MeX2-H2O(M=K, NH4, Rb, Cs; Me=Mg, Mn, Fe, Co, Ni, Cu; X=Cl, Br). MONATSHEFTE FUR CHEMIE, 134, Springer, 2003, ISSN:0026-9247, DOI:10.1007/s00706-002-0584-6, 721-734. ISI IF:1.282
Цитира се в:
768. Lin Yang, Shengfang Li & Chunyan Sun, Selective adsorption and separation of Cs(I) from salt lake brine by a novel surface magnetic ion-imprinted polymer, Journal of Dispersion Science and Technology, 2017, 38(11), pp. 721-734, 2017 Линк
199. Hadjiivanov , K., T. Tsoncheva, M. Dimitrov, C. Minchev, H. Knözinger. Characterization of Cu/MCM-41 and Cu/MCM-48 mesoporous catalysts by FTIR spectroscopy of adsorbed CO. Applied Catalysis A: General, 241, 1-2, Elsevier, 2003, DOI:10.1016/S0926-860X(02)00510-0, 331-340. ISI IF:3.942
Цитира се в:
769. F. Dong, Y. Zhu, H. Zhao and Z. Tang, Catal. Sci. Technol., 7 (2017) 1880 (SI) [pubs.rsc.org]., 2017
770. M. Nikoorazm, A. Ghorbani-Choghamarani and M. Khanmoradi, Synthesis of 2, 3-dihydroquinazolin-4(1H)-ones, disulfides and sulfoxides catalyzed by a zinc complex immobilized onto functionalized mesoporous MCM-41 as a mild and efficient catalyst, J. Iran. Chem. Soc., 14 (2017) 1215 [ISI, 2017 Линк
771. B. Pongthawornsakun, N. Wimonsupakit and J. Panpranot, Preparation of TiO2TiO2 supported Au–Pd and Cu–Pd by the combined strong electrostatic adsorption and electroless deposition for selective hydrogenation of acetylene, J. Chem. Sci., 129 (2017)1721, 2017 Линк
200. Ivanova, E., Hadjiivanov, K.. Polycarbonyls of Rh+ Formed after Interaction of CO with Rh–MFI: an FTIR Spectroscopic Study. Physical Chemistry Chemical Physics, 5, Royal Society of Chemistry, 2003, DOI:10.1039/B210711B, 655-661. ISI IF:4.493
Цитира се в:
772. J. Shan, M. Li, L.F. Allard, S. Lee and M. Flytzani-Stephanopoulos, Mild oxidation of methane to methanol or acetic acid on supported isolated rhodium catalysts, Nature, 551 (2017) 605 [ISI]., 2017 Линк
201. T. Venkov, Hadjiivanov , K.. FTIR Study of CO Interaction with Cu/TiO2. Catalysis Communications, 4, 2003, DOI:10.1016/S1566-7367(03)00035-9, 209-213. ISI IF:3.699
Цитира се в:
773. S. Najafishirtari, Nanoparticles for Technological Applications, Ph. D. Thesis, Universita’ degli Studi di Genova, Genova, Italy and Universität Regensburg, Regensburg, Germany, 2017 [GS]., 2017
202. Hadjiivanov, K., Ivanova, E., Knözinger, H.. FTIR Study of Low-temperature CO Adsorption on Y zeolite Exchanged with Be2+, Mg2+, Ca2+, Sr2+ and Ba2+ Cations. Microporous and Mesoporous Materials, 58, 3, 2003, DOI:doi:10.1016/S1387-1811(02)00650-9, 225-236. ISI IF:3.453
Цитира се в:
page 71/232
774. X. Chen, B. Shen, H. Sun and G. Zhan, Ion-Exchanged Zeolites Y for Selective Adsorption of Methyl Mercaptan from Natural Gas: Experimental Performance Evaluation and Computational Mechanism Explorations, Ind. Eng. Chem. Res., 56 (2017) 10164 [ISI], 2017 Линк
775. A.N. Dobrotvorskaia, O.S. Pestsov and A.A. Tsyganenko, Lateral Interaction between Molecules Adsorbed on the Surfaces of Non-Metals, Top. Catal., 60 (2017)1506 [ISI]., 2017 Линк
203. Hadjiivanov, K., Ivanova, E., Dimitrov, L., Knözinger, H.. FTIR Spectroscopic Study of CO Adsorption on Rh–ZSM-5: Detection of Rh+–CO Species. Journal of Molecular Structure, 661-662, Elsevier, 2003, DOI:doi:10.1016/j.molstruc.2003.09.007, 459-463. ISI IF:1.602
Цитира се в:
776. M. Ozawa, M. Takahashi-Morita, K. Kobayashia and M. Haneda, Core-shell type ceria zirconia support for platinum and rhodium three way catalysts, Catal Today, 281 (2017) 482 [ISI]., 2017 Линк
204. R. Craciun, B. Nentwick, Hadjiivanov , K., H. Knözinger. Structure and Redox Properties of MnOx/Yttruim-stabilized Zirconia (YSZ) Catalyst and its Use in CO and CH4 Oxidation. Applied Catalysis A: General, 243, 1, Elsevier, 2003, DOI:doi:10.1016/S0926-860X(02)00538-0, 67-79. ISI IF:3.942
Цитира се в:
777. Z. Ye, Plasma-Catalytic Processes with Copper Manganese Oxide Catalysts for the Abatement of Volatile Organic Compounds, Ph. D. Thesis, Universite de Lille, Lille, France, 2017 [GS]., 2017
778. W. Zhong, Design, Synthesis and Characterization of Metal Oxide Adsorbents and Catalysts for Environmental Applications, Ph. D. Thesis, University of Connecticut, Storrs, USA, 2017 [GS]., 2017
779. N.D. Wasalathanthri, Green Catalytic Applications of Functional Nanomaterials and Design, Synthesis, and Structure - Property Relationships of Sodium Tungsten Bronze Thin Films, Ph. D. Thesis, University of Connecticut, Storrs, USA, 2017 [GB]., 2017
780. S.S. Sigaeva, T.N. Afonasenkova, O.A. Bulavchenko, T.I. Gulyaeva, E.A. Anoshkina and P.G. Tsyrul’nikov, Effect of Calcination Temperature on the Structure and Catalytic Properties of MnOx/Ca2O3 in the Reaction of CO and Ethane Oxidation, Russ. J. Appl. Chem., 90 (2017) 1918 [ISI]., 2017 Линк
781. J. E.C. Lerner, M.A. Peluso and M. A.Campesi, Cerium, manganese and cerium/manganese ceramic monolithic catalysts. Study of VOCs and PM removal, Latin Am. Appl. Res., 47 (2017) 107 [ISI]., 2017 Линк
782. P. Cheng, Optimization and Investigation of SO2 Adsorption Process for Solid Oxide Fuel Cell Cathode Protection, Ph. D. Thesis, Auburn University, Auburn, USA, 2017 [GS]., 2017
783. С. Сигаева, Т. Афонасенко, О. Булавченко, Т. Гуляева, Е. Аношкина и П. Цырульников, Ж. прикл. хим., 90 (2017) 1586 [ISI]., 2017
784. C. Zhang, C. Wang, S. Gil, A. Boreave, L. Retailleau, Y. Guo, J.L. Valverde and A. Giroir-Fendler, Catalytic oxidation of 1, 2-dichloropropane over supported LaMnOx oxides catalysts, Appl. Catal. B, 201 (2017) 552-560., 2017 Линк
785. I.-C. Marcu, A. Urdă, I. Popescu and V. Hulea, Layered Double Hydroxides-Based Materials as Oxidation Catalysts, in Sustainable Nanosystems Development, Properties, and Applications (M.V. Putz and M.C. Mirica, Eds.), IGI Global, Hersey, USA, 2017, p. 63., 2017 Линк
786. M. Liu, Z. Xiao, J. Dai, W. Zhong, Q. Xu, L. Mao and D. Yin, Manganese-containing hollow TS-1: Description of the catalytic sites and surface properties for solvent-free oxidation of
page 72/232
ethylbenzene, Chem. Eng. J., 313 (2017) 1382, 2017 Линк
787. M.V. Gallegos, M.A. Peluso, E. Finocchio, H.J. Thomas, G. Busca and J.E. Sambeth, Removal of VOCs by catalytic process. A study of MnZnO composites synthesized from waste alkaline and Zn/C batteries, Chem. Eng. J., 313 (2017) 1099, 2017 Линк
788. P.N. Panahi, G. Delahay and S. M. Mousavi, Activity of γ-Al2O3-based Mn, Cu, and Co oxide nanocatalysts for selective catalytic reduction of nitric oxide with ammonia, Turkish J. Chem., 41 (2017) 272, 2017 Линк
789. F. Arena, R. Di Chio, B. Fazio, C. Espro, L. Spiccia, A. Palella and L. Spadaro, Probing the functionality of nanostructured MnCeOx catalysts in the carbon monoxide oxidation: Part I. Influence of cerium addition on structure and CO oxidation activity, Appl. Catal. B, 210 (2017) 14 [ISI]., 2017 Линк
790. F. Arena, R. Di Chio, L. Filiciotto, G. Trunfio, B. Fazio, A. Palella, A. Patti and L. Spadaro, Probing the functionality of nanostructured MnCeOx catalysts in the carbon monoxide oxidation: Part II. Reaction mechanism and kinetic modelling, Appl. Catal. B, 218 (2017) 803 [ISI]., 2017 Линк
791. S. Cimino, G. Totarella, M. Tortorelli and L. Lisi, Combined poisoning effect of K+ and its counter-ion (Cl− or NO3−) on MnOx/TiO2 catalyst during the low temperature NH3-SCR of NO, Chem. Eng. J., 330 (2017) 92 [ISI]., 2017 Линк
792. H. Du, Y. Wang, H. Arandiyan, A. Younis, J. Scott, B. Qu, T. Wan, X. Lin, J. Chen and D. Chu, Design and synthesis of CeO2 nanowire/MnO2 nanosheet heterogeneous structure for enhanced catalytic properties, Mater. Today Commun., 11 (2017) 103 [ISI]., 2017 Линк
793. J. Du, Z. Qu, C. Dong, L. Song, Y. Qin and N. Huang, Low-temperature abatement of toluene over Mn-Ce oxides catalysts synthesized by a modified hydrothermal approach, Appl. Surf. Sci., 433 (2017) 1025 [ISI]., 2017 Линк
794. S.-B. Fan, P.M. Kouotou, J.-J. Weng., G.-F. Pan and Z.-Y. Tian, Investigation on the structure stability and catalytic activity of Cu–Co binary oxides, Proc. Comb. Inst., 36 (2017) 4375 [ISI]., 2017 Линк
795. S. Shabalala, S. Maddila, W.E. Van Zyl and S.B. Jonnalagadda, Innovative Efficient Method for the Synthesis of 1, 4-Dihydropyridines Using Y2O3 Loaded on ZrO2 as Catalyst, Ind. Eng. Chem. Res., 56 (2017) 11372 [ISI]., 2017 Линк
205. Hadjiivanov, K., Ivanova, E., Daturi, M., Saussey, J., Lavalley, J.-C.. Nitrosyl Complexes on Co–ZSM-5: An FTIR Spectroscopy Study. Chemical Physics Letters, 370, 5-6, Elsevier, 2003, DOI:doi:10.1016/S0009-2614(03)00173-8, 712-718. ISI IF:1.897
Цитира се в:
796. A. Bellmann, Mechanistische Untersuchungen der selektiven katalytischen Reduktion (SCR) von Stickoxiden mit Methan an Co-ZSM-5-Katalysatoren, Ph. D. Thesis, Universität Rostock, Rostock, Germany, 2017 [GS]., 2017
797. I. Castellanos and O. Marie, An operando FT-IR study of the NOx SCR over Co-HFER and Fe-HFER using acetylene as a reducing agent, Catal. Today, 283 (2017) 54, 2017 Линк
206. Klissurski D., Iordanova R., Milanova M., Radev D.. Mechanochemically assisted synthesis of Cu (II) molybdate. Comptes Rendus de l'Academie Bulgare des Sciences, 56, 8, 2003, ISSN:1310-1331, 39-42. SJR:0.25, ISI IF:0.233
Цитира се в:
798. M. Benchikhi et al. "Investigation of structural transition in molybdates CuMo1-xWxO4prepared by polymeric precursor method". Processing and Application of Ceramics 11 [1] (2017) 21–26, 2017 Линк
page 73/232
207. Zhecheva, E., Stoyanova, E., Alcantara, R., Tirado, J. L.. Electron paramagnetic resonance and solid-state NMR study of cation distribution in LiGayCo1-yO2 and effects on the electrochemical oxidation. Journal of Physical Chemistry B, 107, 18, 2003, ISSN:1520-6106, 4290-4296. ISI IF:3.302
Цитира се в:
799. Chandran, C. V., Volgmann, K., Nakhal, S., Uecker, R., Witt, E., Lerch, M., & Heitjans, P. (2017). Local Ion Dynamics in Polycrystalline β-LiGaO2: A Solid-State NMR Study. Zeitschrift für Physikalische Chemie, 231(7-8), 1443-1453., 2017 Линк
208. B. Tsyntsarski, V. Avreyska, H. Kolev, Ts. Marinova, Klissurski, D., Hadjiivanov , K.. FTIR Study of the Nature and Reactivity of Surface NOx Compounds Formed after NO Adsorption and NO + O2 Coadsorption on Zirconia- and Sulfated Zirconia-supported Cobalt. J. Mol. Catal., A, 193, 2003, DOI:doi:10.1016/S1381-1169(02)00422-3, 139-149. ISI IF:3.615
Цитира се в:
800. Y. You, H. Chang, T. Zhu, T. Zhang, X. Li and J. Li, The poisoning effects of phosphorus on CeO2-MoO3/TiO2 DeNOx catalysts: NH3-SCR activity and the formation of N2O, Mol. Catal., 439 (2017) 15 [ISI]., 2017 Линк
801. H. Chang, M. Li, Z. Li, L. Duan, C. Zhao, J. Li and J. Hao, Design strategies of surface basicity for NO oxidation over a novel Sn–Co–O catalyst in the presence of H2O, Catal. Sci. Technol., 7 (2017) 2057-2064 [ISI]., 2017 Линк
802. X.D. Sun, S.H. Li, L. Wang, W. Gu, C.L. Shi, X.Y.M. Dong, Y. Wang, W. Wang, Z. Yang, Y. Wang, J.H. Zhu, Impact of proton: Capturing tobacco specific N-nitrosamines (TSNA) with HZSM-5 zeolite, Chem. Eng. J., 323 (2017) 180-190, 2017 Линк
209. Zhecheva, E., Stoyanova, R., Tyuliev, G., Tenchev, K., Mladenov, M., Vassilev, S.. Surface interaction of LiNi0.8Co0.2O2 cathodes with MgO. Solid State Sciences, 5, 1, 2003, ISSN:1293-2558, 711-720. ISI IF:1.839
Цитира се в:
803. Manthiram, A., Song, B., & Li, W. (2017). A perspective on nickel-rich layered oxide cathodes for lithium-ion batteries. Energy Storage Materials, 6, 125-139., 2017 Линк
804. Hou, P., Yin, J., Ding, M., Huang, J., & Xu, X. (2017). Surface/Interfacial Structure and Chemistry of High‐Energy Nickel‐Rich Layered Oxide Cathodes: Advances and Perspectives. Small 13, Issue 45, 1701802., 2017 Линк
805. Cao, C., Zhang, J., Xie, X., & Xia, B. (2017). Composition, structure, and performance of Ni-based cathodes in lithium ion batteries. Ionics, Volume 23, Issue 6, pp 1337–1356., 2017 Линк
210. Tyuliev, G., Panayotov, D., Avramova, I., Stoichev, D., Marinova, Ts.. Thin-film coating of Cu-Co oxide catalyst on lanthana/zirconia films electrodeposited on stainless steel. Materials Science and Engineering C, 23, 1-2, Elsevier BV, 2003, ISSN:0928-4931, 117-121. SJR:1.332, ISI IF:3.31
Цитира се в:
806. Pu, Z., Liu, Y., Zhou, H., Huang, W., Zheng, Y., Li, X. Catalytic combustion of lean methane at low temperature over ZrO2-modified Co3O4 catalysts (2017) Applied Surface Science, 422, pp. 85-93., 2017 Линк
807. Nwanya, A.C., Awada, C., Obi, D., Raju, K., Ozoemena, K.I., Osuji, R.U., Ruediger, A., Maaza, M., Rosei, F., Ezema, F.I. Nanoporous copper-cobalt mixed oxide nanorod bundles as high performance pseudocapacitive electrodes (2017) Journal of Electroanalytical Chemistry, 787, pp. 24-35., 2017 Линк
808. Miran, H.A., Rahman, M.M., Jiang, Z.-T., Altarawneh, M., Chuah, L.S., Lee, H.-L.,
page 74/232
Mohammedpur, E., Amri, A., Mondinos, N., Dlugogorski, B.Z. Structural and optical characteristics of pre- and post-annealed sol-gel derived CoCu-oxide coatings (2017) Journal of Alloys and Compounds, 701, pp. 222-235., 2017 Линк
211. Georgieva, I., Binev, D., Trendafilova, N., Bauer, G.. DFT study of hydrogen-bonded dimers and tetramer of glyoxilic acid oxime. Chemical Physics, 286, 2-3, Elsevier, 2003, 205-217. ISI IF:1.652
Цитира се в:
809. Kirmizialtin, S., Yildiz, B.S., Yildiz, I., A DFT-based mechanistic study on the formation of oximes, Journal of Physical Organic Chemistry, Vol. 30, (12), 2017 e3711. DOI: 10.1002/poc.3711., 2017 Линк
212. Detcheva, A., Daskalova, N., Velichkov, S., Havezov, I.. Analysis of Single Crystals Based on Strontium-Lithium-Titanium Oxides by Inductively Coupled Plasma Atomic Emission Spectrometry (ICP-AES). Spectrochimica Acta Part B, 58, 2003, 1481-1488. ISI IF:2.361
Цитира се в:
810. Stoyanova, D., Mihailova, I., Radev, D., Ivanov, G., Mehandjiev, D. "Catalytic Oxidation of Co by Copper-Nickel Oxides Supported on Gamma-Alumina" (2017) Comptes Rendus de L’Academie Bulgare des Sciences, 70(8) pp. 1095-1102, 2017
213. S. Kannan, D. Kishore, Hadjiivanov , K., H. Knözinger. FTIR Study of Low-Temperature CO Adsorption on MgAl-Hydrotalcite and Its Calcined Forms. Langmuir, 19, American Chemical Society, 2003, ISSN:14, DOI:10.1021/la030019q, 5742-5747. ISI IF:4.457
Цитира се в:
811. L. Smoláková, K. Frolich, J. Kocík, O. Kikhtyanin and L. Capek, Surface Properties of Hydrotalcite-Based Zn (Mg) Al Oxides and Their Catalytic Activity in Aldol Condensation of Furfural with Acetone, Ind. Eng. Chem. Res., 56 (2017) 4638 [ISI]., 2017 Линк
2004
214. Valova, E., Armyanov, S., Franquet, A., Petrov, K., Kovacheva, D., Dille, J., Delplancke, J.-L., Hubin, A., Steenhaut, O., Vereecken, J.. Comparison of the structure and chemical composition of crystalline and amorphous electroless Ni-W-P coatings. J. Electrochem. Soc., 151, 6, 2004, ISSN:00134651, DOI:10.1149/1.1705661, 385-391. ISI IF:3.17
Цитира се в:
812. Lee, Hung Bin, and Meng Yen Wu. "A Study on the Corrosion and Wear Behavior of Electrodeposited Ni-WP Coating." Metallurgical and Materials Transactions A 48.10 (2017): 4667-4680., 2017 Линк
215. Konova, P., Naydenov, A., Tabakova, T., Mehandjiev, D.. Deactivation of nanosize gold supported on zirconia in CO oxidation. Catalysis Communications, 5, 9, Elsevier, 2004, ISSN:15667367, DOI:10.1016/j.catcom.2004.06.010, 537-542. SJR:1.207, ISI IF:3.7
Цитира се в:
813. Zhu, B., Liu, J. L., Li, X. S., Liu, J. B., Zhu, X., & Zhu, A. M., "In Situ Regeneration of Au Nanocatalysts by Atmospheric-Pressure Air Plasma: Regeneration Characteristics of Square-Wave Pulsed Plasma", Topics in Catalysis, 60/(12–14) (2017) 914–924., 2017 Линк
814. Y. Wang, D. Widmann, M. Wittmann, F. Lehnert, D. Gu, F. Schüth and R. J. Behm “High activity and negative apparent activation energy in low-temperature CO oxidation – present on Au/Mg(OH)2, absent on Au/TiO2” Catal. Sci. Technol., 7/18 (2017) 4145-4161.,
page 75/232
2017 Линк
815. Du, C., Guo, Y., Guo, Y., Gong, X. Q., & Lu, G., "Synthesis of a hollow structured core–shell Au CeO2–ZrO2 nanocatalyst and its excellent catalytic performance", Journal of Materials Chemistry A, 5/11 (2017) 5601-5611., 2017 Линк
216. Penkova, A., Hadjiivanov, K., Mihaylov, M., Daturi, M, Saussey, J., Lavalley, J.-C.. FTIR spectroscopic study of low-temperature co-adsorption of NO and O2 on H-ZSM-5: evidence of formation of [ONNO]+ species. Langmuir, 20, 13, 2004, DOI:10.1021/la0496643, 5425-5431. SJR:1.55, ISI IF:4.097
Цитира се в:
816. A. Kharchenko, Properties of copper species stabilized in zeolite nanocrystals, Ph. D. Thesis, University of Normandy, Caen, France, 2017 [GS]., 2017
217. Mihaylov, M., Chakarova, K., Hadjiivanov , K.. Formation of Carbonyl and Nitrosyl Complexes on Titania- and Zirconia-supported Nickel: FTIR Spectroscopy Study. Journal of Catalysis, 228, 2, Elsevier, 2004, DOI:doi:10.1016/j.jcat.2004.08.039, 273-281. ISI IF:6.921
Цитира се в:
817. Y. Li, Y. Du, Y. Wei, Z. Zhao, B. Jin, X. Zhang, J. Liu, "Catalysts of 3D ordered macroporous ZrO2-supported core–shell PtCeO2−x nanoparticles: effect of the optimized Pt–CeO2 interface on improving the catalytic activity and stability of soot oxidation", Catalysis Science & Technology, 7 (2017) 968-981., 2017 Линк
818. A. Wolfbeisser, G. Kovács, S. M. Kozlov, K. Föttinger, J. Bernardic, B. Klötzer, K. M. Neyman, G. Rupprechter, "Surface composition changes of CuNi-ZrO2 during methane decomposition: An operando NAP-XPS and density functional study", Catal. Today, 283 (2017) 134-143., 2017 Линк
218. Todorovsky, D., Getsova, M., Wawer, I., Stefanov, P., Enchev, V. On the chemical nature of lanthanum-titanium citric complexes, precursors of La2Ti2O7. Materials Letters, 58, 27-28, Elsevier, 2004, ISSN:0167577X, DOI:10.1016/j.matlet.2004.06.051, 3559-3563. SJR:0.85, ISI IF:2.489
Цитира се в:
819. A. Suslov, et al., "Modified Pechini Processing of Barium and Lanthanum-Lithium Titanate Nanoparticles and Thin Films"", Nanoscale Research Letters 2017, 12, 350, 2017 Линк
820. Zhao, S., et al., "Preparation, characterization and catalytic application of hierarchically porous LaFeO3 from a pomelo peel template" Inorganic Chemistry FrontiersVolume 4, Issue 6, June 2017, Pages 994-1002, 2017 Линк
219. Mihaylov, M., Hadjiivanov , K.. Redox Couples in the Selective Catalytic Reduction of NOx with Hydrocarbons over Co–ZSM-5 and Ni–ZSM-5 Catalysts: an FT-IR Study. Chemical Communications, Royal Society of Chemistry, 2004, DOI:DOI: 10.1039/B408061K, 2200-2201. ISI IF:6.834
Цитира се в:
821. Y. Li, Y. Li, Q. Shi, M. Qiu, S. Zhan, Novel hollow microspheres MnxCo3− xO4 (x = 1, 2) with remarkable performance for low-temperature selective catalytic reduction of NO with NH3, J. Sol-Gel Sci. Technol., 81 (2017) 576, 2017 Линк
822. K.O. Sebakhy, Developing Novel Heterogeneous Catalysts for the Selective Hydrogenation of Olefins in Light Petroleum Distillates, Ph. D. Thesis, University of Calgary, Calgary, Canada, 2017 [GS]., 2017
220. Vassileva P., Krastev V., Lakov L., Peshev O.. XPS determination of the binding energies of phosphorus and nitrogen in phosphazenes. Journal of Materials Science, 39, 9, 2004, 3201-3203. ISI IF:0.86
page 76/232
Цитира се в:
823. Liang, W. J., Zhao, B., Zhao, P. H., Zhang, C. Y., & Liu, Y. Q. (2017). Bisphenol-S bridged penta (anilino) cyclotriphosphazene and its application in epoxy resins: synthesis, thermal degradation, and flame retardancy. Polymer Degradation and Stability, 135, pp. 140-151, 2017
824. Liang, W. J., Zhao, B., Zhang, C. Y., Jian, R. K., Liu, D. Y., & Liu, Y. Q. (2017). Enhanced flame retardancy of DGEBA epoxy resin with a novel bisphenol-A bridged cyclotriphosphazene. Polymer Degradation and Stability, 144, pp.292-303., 2017
221. Mihaylov, M., Hadjiivanov , K., Panayotov, D.. FTIR mechanistic studies on the selective catalytic reduction of NOx with methane over Ni-containing zeolites: comparison between NiY and Ni-ZSM-5. Applied Catalysis B: Environmental, 51, 1, Elsevier, 2004, DOI:doi:10.1016/j.apcatb.2004.02.002, 33-42. ISI IF:7.435
Цитира се в:
825. M. Sakmeche, Synthèse, fonctionnalisation d’un matériau mésoporeux type AlMCM-41 et application à la réduction du NO, Ph. D. Thesis, Univesity of Sciences and Technology of Oran, Oran, Algeria, 2017 [GS]., 2017
222. Alcantara R., Lavela P., Ortiz G., Stoyanova R., Zhecheva E., Mateos JMJN. Modification of petroleum coke for lithium-ion batteries by heat-treatment with iron oxide. Journal of the Electrochemical Society, 151, 12, 2004, DOI:10.1149/1.1814031, A2113-A2119. ISI IF:3.259
Цитира се в:
826. Pandey, A., Gurbuz, Y., Ozguz, V., Niazi, J. H., & Qureshi, A. (2017). Probing synergistic toxicity effects on living cells by combination of two different sized nanoparticles by a whole–cell based biochip. Materials Today: Proceedings, 4(8), 8427-8431., 2017 Линк
223. Gentscheva, G., Detcheva, A., Havezov, I., Ivanova, E.. Slurry Sampling for the ETAAS Determination of Sodium and Iron Impurities in Optical Crystals of Rubidium Titanyl Phosphate. Microchimica Acta, 144, 2004, 115-118. ISI IF:0.851
Цитира се в:
827. Stoyanova, D., Mihailova, I., Radev, D., Ivanov, G., Mehandjiev, D. "Catalytic Oxidation of Co by Copper-Nickel Oxides Supported on Gamma-Alumina" (2017) Comptes Rendus de L’Academie Bulgare des Sciences, 70(8) pp. 1095-1102, 2017
224. Konova, P., Naydenov, A., Venkov, Cv., Mehandjiev, D., Andreeva, D., Tabakova, T.. Activity and Deactivation of Au/TiO2 Catalyst in CO oxidation. Journal of Molecular Catalysis A: Chemical, 213, 2, ELSEVIER, 2004, ISSN:13811169, DOI:10.1016/j.molcata.2003.12.021, 235-240. ISI IF:3.615
Цитира се в:
828. Smirnov, M. Y., Vovk, E. I., Kalinkin, A. V., & Bukhtiyarov, V. I., "Effect of the Composition of the Reaction Atmosphere on the Thermal Stability of Highly Dispersed Gold Particles on an Oxide Support (Au/Fe2O3 System)." Kinetics and Catalysis, 58/6 (2017) 809-815., 2017 Линк
829. Смирнов, М. Ю., Вовк, Е. И., Калмыкии, А. В., & Бухтияров, В. И. (2017). ВЛИЯНИЕ СОСТАВА РЕАКЦИОННОЙ ГАЗОВОЙ СРЕДЫ НА ТЕРМИЧЕСКУЮ СТАБИЛЬНОСТЬ ВЫСОКОДИСПЕРСНЫХ ЧАСТИЦ ЗОЛОТА НА ОКСИДНОМ НОСИТЕЛЕ:(СИСТЕМА Au/Fe2O3). Кинетика и катализ, (6), 780-787., 2017
830. Zhu, B., Liu, J. L., Li, X. S., Liu, J. B., Zhu, X., & Zhu, A. M., "In Situ Regeneration of Au Nanocatalysts by Atmospheric-Pressure Air Plasma: Regeneration Characteristics of Square-Wave Pulsed Plasma", Topics in Catalysis, 60 (2017) 914–924., 2017 Линк
page 77/232
831. G. Kučerová, J. Strunk, M. Muhler, R. JürgenBehm “Effect of titania surface modification of mesoporous silica SBA-15 supported Au catalysts: Activity and stability in the CO oxidation reaction”, Journal of Catalysis, 356 (2017) 214-228., 2017 Линк
832. Christophe Massard, Sébastien Pairis, Yves Sibaud, Christelle Blavignac, Oscar Komla Awitor “Boosted Photoactivity of Titania Nanotube Layers Doped with a Suspension of Gold Nanoparticles”, Advances in Nanoparticles, 6/3 (2017) 114-127., 2017 Линк
833. Y. Wang, D. Widmann, M. Heenemann, T. Diemant, J. Biskupek, R. Schlögl, R. J. Behm “The role of electronic metal-support interactions and its temperature dependence: CO adsorption and CO oxidation on Au/TiO2 catalysts in the presence of TiO2 bulk defects”, Journal of Catalysis, 354 (2017) 46-60., 2017 Линк
834. Y. Wang, D. Widmann, M. Wittmann, F. Lehnert, D. Gu, F. Schüth and R. J. Behm “High activity and negative apparent activation energy in low-temperature CO oxidation – present on Au/Mg(OH)2, absent on Au/TiO2” Catal. Sci. Technol., 7/18 (2017) 4145-4161., 2017 Линк
835. Chao Wang “Development of Novel Catalysts for Air Pollution Control”, 2017, University of South California, PhD Thesis, 2017 Линк
836. Sandoval, A., Zanella, R., Klimova, T. E. Titania nanotubes decorated with anatase nanocrystals as support for active and stable gold catalysts for CO oxidation. Catalysis Today, Volume 282, Part 2, 15 March 2017, Pages 140–150., 2017 Линк
837. Wang, Y., Widmann, D., Behm, R. J., Influence of TiO2 Bulk Defects on CO Adsorption and CO Oxidation on Au/TiO2: Electronic Metal–Support Interactions (EMSIs) in Supported Au Catalysts. ACS Catalysis, 7 (2017) 2339-2345., 2017 Линк
838. Wang, C., Wen, C., Lauterbach, J., Sasmaz, E., Superior oxygen transfer ability of Pd/MnOx-CeO2 for enhanced low temperature CO oxidation activity, Applied Catalysis B: Environmental, Volume 206, (2017) Pages 1–8., 2017 Линк
839. Ma, L., Laasonen, K., Akola, J., "Catalytic Activity of AuCu Clusters on MgO (100): Effect of Alloy Composition for CO Oxidation", The Journal of Physical Chemistry C. 121/20 (2017) 10876–10886., 2017 Линк
840. Lazzarini, A., Activated carbons for applications in catalysis: the point of view of a physical-chemist, Rendiconti Lincei, Concepts in Catalysis, 28 (2017) 29-42., 2017 Линк
225. M. Khrussanova, E. Grigorova, J.-L. Bobet, Khristov M., Peshev P.. Hydrogen sorption properties of the nanocomposites Mg-Mg2Ni1-xCox obtained by mechanical alloying”,. J. Alloys Comp., 365, 2004, 308-313. ISI IF:3.014
Цитира се в:
841. Muthu, Premnath, et al. "Structural and Optical Properties Correlation of Nickel Doped Magnesium-Titanium Alloys with Sorption Kinetics Reaction for Hydrogen Storage Application".TRANSACTIONS OF THE INDIAN INSTITUTE OF METALS. Volume: 70 Issue: 3 Pages: 581-587 Special Issue: SI, 2017, 2017 Линк
226. Radostina Stoyanova, Ekaterina Zhecheva, Ricardo Alcantara, José-Luis Tirado, Geoffrey Bromiley, Fiona Bromiley, Tiziana Boffa Ballaran. Layered solid solutions of LiNi1−xCoxO2 with α-LiGaO2 obtained under high oxygen pressure. Journal of Materials Chemistry, 1, 4, 2004, DOI:10.1039/B313473C, 366-373. ISI IF:8.262
Цитира се в:
842. Chandran, C. V., Volgmann, K., Nakhal, S., Uecker, R., Witt, E., Lerch, M., & Heitjans, P. (2017). Local Ion Dynamics in Polycrystalline β-LiGaO2: A Solid-State NMR Study. Zeitschrift für Physikalische Chemie, 231(7-8), 1443-1453., 2017 Линк
page 78/232
227. Stefanov, P., Atanasova, G., Stoychev, D., Marinova, Ts.. Electrochemical deposition of CeO2 on ZrO2 and Al2O3 thin films formed on stainless steel. Surface and Coatings Technology, 180-181, Elsevier, 2004, ISSN:02578972, DOI:doi:10.1016/j.surfcoat.2003.10.083, 446-449. SJR:0.96, ISI IF:1.998
Цитира се в:
843. Vaijayanti Namdeo Nande, Diana Kostyukova, Jeonghee Choi, and Yong Hee Chung, Preparation of Cerium Dioxide Layers on Titanium by Electrodeposition with Organic Solution, Journal of Nanomaterials, Volume 2017 (2017), Article ID 7214617, 9 pages, https://doi.org/10.1155/2017/7214617, 2017
844. Lee, H.-S., Singh, J.K., Ismail, M.A. An effective and novel pore sealing agent to enhance the corrosion resistance performance of Al coating in artificial ocean water, 2017 Scientific Reports, 7, 41935, 2017
845. Yang, Y., Yang, Y., Du, X., (...), Yang, Z., Zhang, Z. Synergistic effect of nitrate content and ethanol on photo-assisted anodic deposition of ceria thin films, 2017 Thin Solid Films, 627, pp. 44-52, 2017
846. Acosta-Silva, Y.J., Castañedo-Perez, R., Torres-Delgado, G., Méndez-Lopez, A., Zelaya-Ángel, O. Effect of annealing temperature on structural, morphological and optical properties of CeO2 thin films obtained from a simple precursor solution, 2017 Journal of Sol-Gel Science and Technology, 82 (1), pp. 20-27, 2017
228. Kostov, K.L., Widdra, W., Menzel, D.. Hydrogen on Ru(001) revisited: vibrational structure, adsorption states, and lateral coupling. Surface Science, 560, 1-3, Elsevier, 2004, ISSN:ISSN 0039-6028, DOI:10.1016/j.susc.2004.04.025, 130-144. ISI IF:1.925
Цитира се в:
847. Abdelrahman, O.A., Heyden, A. and Bond, J.Q., Microkinetic analysis of C 3–C 5 ketone hydrogenation over supported Ru catalysts. Journal of Catalysis, 348, 2017, pp.59-74., 2017
848. Liu, J., Lyu, H., Chen, Y., Li, G., Jiang, H. and Zhang, M., Insights into the mechanism of ethanol synthesis and ethyl acetate inhibition from acetic acid hydrogenation over Cu 2 In (100): a DFT study. Physical Chemistry Chemical Physics, 19(41), pp.28083-28097, 2017., 2017
849. Schlexer, P., Nanostructures in Catalysis-Support Effects on Metal Clusters and Oxide Thin Films, Ph.D. Thesis, Universita degli Studi di Milano-Bicocca, Dipartimento di Scienza dei Materiali, Scuola di Dottorato, Italy, 2017., 2017 Линк
229. Chakarova, K., Ivanova, E., Hadjiivanov, K., Klissurski, D., H. Knözinger. Co-ordination Chemistry of Palladium Cations in Pd–H–ZSM-5 as Revealed by FTIR Spectra of Adsorbed and Co-adsorbed Probe Molecules (CO and NO). Physical Chemistry Chemical Physics, 6, Royal Society of Chemistry, 2004, DOI:10.1039/B401934B, 3702-3709. ISI IF:4.493
Цитира се в:
850. Y. Ryou, J. Lee, S. J. Cho, H. Lee, C. H. Kim, D. H. Kim, "Activation of Pd/SSZ-13 catalyst by hydrothermal aging treatment in passive NO adsorption performance at low temperature for cold start application", Applied Catalysis B: Environmental, 212 (2017) 140-149., 2017 Линк
851. P. Begum, R. Deka, "Effect of Charge on the Catalytic Activity of CO Oxidation by zeolite Supported Single Site Palladium: A Density Functional Study", Chemistry Select, 28 (2017) 8847-8855., 2017 Линк
852. S. Akiyama, Improvement in Durability of H-ZSM5 Catalyst for the Catalytic Cracking of Naphta, Ph. D. Thesis, Tokyo Institute of Technology, Japan, 2017 [GS]., 2017
page 79/232
230. Kannan, S., Venkov, Tz., Hadjiivanov, K., Knözinger, H.. Fourier Transform Infrared Study of Low-Temperature CO Adsorption on CuMgAl-Hydrotalcite. Langmuir, 20, 3, American Chemical Society, 2004, DOI:10.1021/la035086z, 730-736. SJR:1.55, ISI IF:4.457
Цитира се в:
853. I. Ro, Synthesis, Characterization, and Catalytic Properties of Interfacial Sites on Supported Metal Catalysis, Ph. D. Thesis, University of Wisconsin, Madison, USA, 2017 [GB]., 2017
231. Gadjov, H., Gorova, M., Kotzeva, V., Avdeev, G., Uzunova, S., Kovacheva, D.. LiMn2O4 prepared by different methods at identical thermal treatment conditions: Structural, morphological and electrochemical characteristics. Journal of Power Sources, 134, 1, 2004, ISSN:0378-7753, DOI:10.1016/j.jpowsour.2004.03.027, 110-117. ISI IF:6.217
Цитира се в:
854. Lesel, Benjamin K., et al. "Using Nanoscale Domain Size to Control Charge Storage Kinetics in Pseudocapacitive Nanoporous LiMn2O4 Powders." ACS Energy Letters 2.10 (2017): 2293-2298., 2017 Линк
232. Lazarraga, M.G., Pascual, L., Gadjov, H., Kovacheva, D., Petrov, K., Amarilla, J.M., Rojas, R.M., Martin-Luengo, M.A., Rojo, J.M.. Nanosize LiNiyMn2 - yO4 (0 < y ≤ 0.5) spinels synthesized by a sucrose-aided combustion method. Characterization and electrochemical performance. Journal of Materials Chemistry, 14, 10, 2004, ISSN:0959-9428, DOI:10.1039/b314157h, 1640-1647. ISI IF:6.626
Цитира се в:
855. Han, Cheng-Gong, et al. "Enhanced cycling performance of surface-doped LiMn 2 O 4 modified by a Li 2 CuO 2-Li 2 NiO 2 solid solution for rechargeable lithium-ion batteries." Electrochimica Acta 224 (2017): 71-79., 2017 Линк
856. Peng, Zhongdong, et al. "Improved elevated temperature performance of spinel LiMn2O4 via surface-modified by Li-rich Li1. 2Ni0. 2Mn0. 6O2 for lithium-ion batteries." Journal of Alloys and Compounds 728 (2017): 1209-1216., 2017 Линк
857. Diez, Alejandra S., et al. "Spinel manganites synthesized by combustion method: Structural characterization and catalytic activity in the oxidative degradation of organic pollutants." Journal of Environmental Chemical Engineering 5.4 (2017): 3690-3697., 2017 Линк
858. Liu, Y., Wang, K., Lin, Y., Zhu, Y., Tu, W., Xu, M., Liu, X., Li, B., Li, W. Tetrafluoroterephthalonitrile: A Novel Electrolyte Additive for High-Voltage Lithium Cobalt Oxide/Graphite Battery (2017) Electrochimica Acta, 256, pp. 307-315., 2017 Линк
233. Vitanov, P., Harizanova, A, Angelov, Chr., Petrov, I., Alexieva, Z., Stefanov, P.. Structure and optical properties of (Al2O3) x(Tio)1-x thin films prepared by a sol-gel processing. Vacuum, 76, 2-3, Elsevier, 2004, ISSN:0042207X, DOI:10.1016/j.vacuum.2004.07.017, 215-218. SJR:0.572, ISI IF:1.558
Цитира се в:
859. Etefagh, R.at al., "Synthesis and antimicrobial properties of ZnO/PVA, CuO/PVA, and TiO2/PVA nanocomposites" Scientia IranicaOpen Access Volume 24, Issue 3, May-June 2017, Pages 1717-1723, 2017 Линк
234. Atanassova, E., Tyuliev, G., Paskaleva, A., Spassov, D., Kostov, K.. XPS study of N2 annealing effect on thermal Ta2O5 layers on Si. Applied Surface Science, 225, 1-4, Elsevier, 2004, ISSN:ISSN 0169-4331, DOI:10.1016/j.apsusc.2003.09.040, 86-99. ISI IF:2.711
Цитира се в:
860. Woo, J.C. and Kim, C.I., 2017. Chemical Reaction on Etched TaNO Thin Film as O 2 Content
page 80/232
Varies in CF 4/Ar Gas Mixing Plasma. TRANSACTIONS ON ELECTRICAL AND ELECTRONIC MATERIALS, 18(2), pp.74-77., 2017
861. Sathasivam, S., Williamson, B.A., Kafizas, A., Althabaiti, S.A., Obaid, A.Y., Basahel, S.N., Scanlon, D.O., Carmalt, C.J. and Parkin, I.P., Computational and Experimental Study of Ta2O5 Thin Films. The Journal of Physical Chemistry C, 121(1), pp.202-210, 2017., 2017
862. Yan, Y., Lee, J. and Cui, X., Enhanced photoelectrochemical properties of Ta-TiO 2 nanotube arrays prepared by magnetron sputtering. Vacuum, 138, pp.30-38, 2017., 2017
863. Ou, S.F. and Wang, C.Y., Effects of bioceramic particles in dielectric of powder-mixed electrical discharge machining on machining and surface characteristics of titanium alloys. Journal of Materials Processing Technology, 245, pp.70-79, 2017., 2017 Линк
864. Mishra, M., Kei, C.-C., Yu, Y.-H., Liu, W.-S., and Perng, T.-P., Uniform coating of Ta2O5 on vertically aligned substrate: A prelude to forced flow atomic layer deposition, Review of Scientific Instruments 88, 065103 (2017), 2017 Линк
865. Kato, M., Hayashi, T., Hasegawa, G., Lu, X., Miyazaki, T., Matsuda, Y., Kuwata, N., Kurihara, K., Kawamura, J., Electrochemical properties of LiCoO2 thin film surface modified by lithium tantalate and lithium niobate coatings, Solid State Ionics 308 (2017) 54–60., 2017 Линк
866. Luo, B., Chen, M., Zhang, Z., Hong, Y., Lv, T. and Shi, W., Characterization and photocatalytic activity of Bi3TaO7 prepared by hydrothermal method. Journal of Solid State Chemistry, 256, pp.203-212, 2017., 2017 Линк
867. Yue, X., Zhong, C., Huang, S., Jin, Y., He, C., Chen, Y. and Shen, P.K., 2017. K 0.4 TaO 2.4 F 0.6 Nanocubes as Highly Efficient Noble Metal-Free Electrocatalysts for Hydrogen Evolution Reaction in Acidic Media. Electrochimica Acta 245, pp 193-200, 2017., 2017
868. Chamlagain, B., Cui, Q., Paudel, S., Cheng, M.M.-C., Chen, P.-Y., Zhou, Z. Thermally oxidized 2D TaS2as a high-κ gate dielectric for MoS2field-effect transistors 2D Materials, 4 (3), art. no. 031002, 2017, 2017 Линк
869. Hota, M.K., Alshammari, F.H., Salama, K.N., Alshareef, H.N. Transparent Flash Memory Using Single Ta2O5 Layer for Both Charge-Trapping and Tunneling Dielectrics ACS Applied Materials and Interfaces, 9 (26), pp. 21856-21863, 2017., 2017 Линк
870. Li C., Zhu H., Wang Y., Liu H., Hu S., Wang F., Zhang B., Dai S., Tan Z., High performance polymer solar cells with electron extraction and light-trapping dual functional cathode interfacial layer, Nano Energy 31, 2017, Pages 201–209., 2017 Линк
871. Komolov A.S., Zhukova Y.M., Lazneva E.F., Aleshin A.N., Pshenichnyuk S.A., Gerasimova N.B., Panina Yu.A., Zashikhin G.D., Baramygin A.V., Thermally induced modification of the graphene oxide film on the tantalum surface, Materials & Design, 113, 5, 2017, Pages 319–325., 2017 Линк
235. Stoyanova, R., Zhecheva, E., Alcantara, R., Tirado, J. l... Local Coordination of Low-Spin Ni3+ Probes in Trigonal LiAl yCo1-yO2 Monitored by HF-EPR. Journal of Physical Chemistry B, 108, 13, 2004, ISSN:1520-6106, 4053-4057. ISI IF:3.302
Цитира се в:
872. Zhang, Y., Zhao, Y., An, W., Xing, L., Gao, Y., & Liu, J. (2017). Heteroelement Y-doped α-Ni (OH) 2 nanosheets with excellent pseudocapacitive performance. Journal of Materials Chemistry A, 5(20), 10039-10047., 2017 Линк
236. Stefanov, P., Stoychev, D., Aleksandrova, A., Nikolova, D., Atanasova, G., Marinova, Ts.. Compositional and structural characterization of alumina coatings deposited electrochemically on stainless steel. Applied Surface Science, 235, 1-2, Elsevier, 2004, ISSN:01694332, DOI:doi: 10.1016/j.apsusc.2004.05.119, 80-85. SJR:0.93, ISI IF:3.15
page 81/232
Цитира се в:
873. Yubin Kang, Jaeyoung Choi, Jinju Park, Woo-Byoung Kim, Kun-Jae Lee, Characterization of stainless steel surface processed using electrolytic oxidation and titanium complex ion solution, Applied Surface Science, Volume 415, 1 September 2017, Pages 161-165, http://dx.doi.org/10.1016/j.apsusc.2016.10.063, 2017
237. Alcantara, R., Jaraba, M., Lavela, P., Tirado, J. L., Zhecheva, E., Stoyanova, R.. Changes in the Local Structure of LiMgyNi0.5-yMn 1.5O4 Electrode Materials during Lithium Extraction. Chemistry of Materials, 16, 8, 2004, ISSN:0897-4756, 1573-1579. ISI IF:8.354
Цитира се в:
874. Kim, D. W., Shiiba, H., Zettsu, N., Yamada, T., Kimijima, T., Sánchez-Santolino, G., ... & Teshima, K. (2017). Full picture discovery for mixed-fluorine anion effects on high-voltage spinel lithium nickel manganese oxide cathodes. NPG Asia Materials, 9(7), e398., 2017 Линк
875. Tang, M., Dalzini, A., Li, X., Feng, X., Chien, P. H., Song, L., & Hu, Y. Y. (2017). Operando EPR for Simultaneous Monitoring of Anionic and Cationic Redox Processes in Li-Rich Metal Oxide Cathodes. The journal of physical chemistry letters, 8(17), 4009-4016., 2017 Линк
876. Li, J., Li, S., Xu, S., Huang, S., & Zhu, J. (2017). Synthesis and Electrochemical Properties of LiNi0. 5Mn1. 5O4 Cathode Materials with Cr3+ and F− Composite Doping for Lithium-Ion Batteries. Nanoscale Research Letters, 12(1), 414., 2017 Линк
877. Zhang, F., Dai, J., Wang, A., & Wu, W. (2017). Investigation of the synergistic extraction behavior between cerium (III) and two acidic organophosphorus extractants using FT-IR, NMR and mass spectrometry. Inorganica Chimica Acta, Volume 466, 1 September 2017, Pages 333-342., 2017 Линк
878. Deng, M. M., Zou, B. K., Shao, Y., Tang, Z. F., & Chen, C. H. (2017). Comparative study of the electrochemical properties of LiNi0. 5Mn1. 5O4 doped by bivalent ions (Cu2+, Mg2+, and Zn2+). Journal of Solid State Electrochemistry, 21(6), 1733-1742., 2017 Линк
879. WANG, J. F., Dan, C. H. E. N., Wei, W. U., Li, W. A. N. G., & LIANG, G. C. (2017). Effects of Na+ doping on crystalline structure and electrochemical performances of LiNi0. 5Mn1. 5O4 cathode material. Transactions of Nonferrous Metals Society of China, 27(10), 2239-2248., 2017 Линк
880. Liao, C., Zhang, Q., Zhai, T., Li, H., & Zhou, H. Development and perspective of the insertion anode Li 3 VO 4 for lithium-ion batteries. Energy Storage Materials (2017) 7, 17–31., 2017 Линк
238. Bobet J.-L., Grigorova E., Khrussanova M., Khristov M., Stefanov P., Peshev P., Radev D.. Hydrogen sorption properties of graphite-modified magnesium nanocomposites prepared by ball-milling. Journal of Alloys and Compounds, 366, Elsevier, 2004, ISSN:09258388, DOI:10.1016/S0925-8388(03)00746-1, 298-302. SJR:1.091, ISI IF:3.014
Цитира се в:
881. Du, Qian, et al. "Enhanced electrochemical kinetics of magnesium-based hydrogen storage alloy by mechanical milling with graphite".INTERNATIONAL JOURNAL OF HYDROGEN ENERGY. Volume: 42 Issue: 34 Pages: 21871-21879, 2017, 2017 Линк
239. Panayotov, D., Yates, J.T., Jr.. Charge exchange between TiO2 and a polyfunctional chemisorbed molecule – the involvement of electrophilic groups. Chemical Physics Letters, 399, Elsevier Science B.V., 2004, ISSN:0009-2614, DOI:http://dx.doi.org/10.1016/j.cplett.2004.09.083, 300-306. ISI IF:1.897
Цитира се в:
882. Chen, T.-w.; Hao, Y.-n.; Ma, Y.-c., "Quasiparticle Band Structures of Defects in Anatase
page 82/232
TiO2 Bulk". Chinese Journal of Chemical Physics 2017, 30 (6), 771-775; DOI: 10.1063/1674-0068/30/cjcp1711217, 2017 Линк
240. Nikolov, I., Mateos, X., Güell, F., Massons, J., Nikolov, V., Peshev, P., Díaz, F.. Optical properties of Cr3+:NaAl(WO4)2 crystals, a new candidate for broadband laser applications. Optical Materials, 25, 1, Elsevier, 2004, ISSN:0925-3467, DOI:10.1016/S0925-3467(03)00216-7, 53-58. SJR:0.693, ISI IF:1.981
Цитира се в:
883. Huang, Y., Sun, S., Lin, Z., Zhang, L., Wang, G. Assessment of growth and spectral properties of Cr3+-doped La0.83Y0.29Sc2.88(BO3)4 crystal (2017) Journal of Crystal Growth, 476, pp. 45-49., 2017
884. Wang, M., You, J., Sobol, A., Lu, L., Wang, J., Xie, Y. In-situ studies of structure transformation and Al coordination of KAl(MoO4)2 during heating by high temperature Raman and 27Al NMR spectroscopies (2017) Materials, 10 (3), art. no. 310, 2017
241. Trendafilova, N., Bauer, G., Mihaylov, Tz.. DFT and AIM studies of intramolecular hydrogen bonds in dicoumarols. Chemical Physics, 302, 1-3, Elsevier, 2004, 95-104. ISI IF:1.652
Цитира се в:
885. Ghogomu, J. N., Nkungli, N. K., DFT Studies and Topological Analyses of Electron Density on Acetophenone and Propiophenone Thiosemicarbazone Derivatives as Covalent Inhibitors of Falcipain-2, a Major Plasmodium Falciparum Cysteine Protease (2017) Phisical Chemistry Research, Vol. 5, (4), 795-817., 2017 Линк
886. Tamafo, A. D. F., Ghogomu, J. N., Nkungli, N.K., Mama, D.B. and Younang, E., Quantum Chemical Investigation on the Antioxidant Activity of Neutral and Anionic Forms of Juglone: Metal Chelation and Its Effect on Radical Scavenging Activity, (2017), Journal of Chemistry, Vol. 2017 Article ID 3281684, 14 pages, , 2017 Линк
2005
242. Georgieva, I., Trendafilova, N., Rodriguez Santiago, L., Sodupe, M.. Coordination Properties of Oxime Analogue of Glycine to Cu(II). Journal of Physical Chemsitry A, 109, 25, American Chemical Society, 2005, ISSN:1520-5215, 5668-5676. ISI IF:2.952
Цитира се в:
887. Mammino, L., Complexes of arzanol with a Cu2+ ion: a DFT study (2017) Journal of Molecular Modeling, 23: 276., 2017 Линк
888. Nogheu, L.N., Ghogomu, J.N., Nkungli, N.K., Mama, D.B., Younang, E. , A density functional theory investigation of d8 transition metal(II) (Ni, Pd, Pt) chloride complexes of some vic-dioximes derivatives, physical Chemical Research, 5(4) 737-754, 2017., 2017 Линк
243. Petrovic, S., Karanovic, L., Stefanov, P., Zdujic ,M., Terlecki-Baricevic, A.. Catalytic combustion of methane over Pd containing perovskite type oxides. Applied Catalysis B: Environmental, 58, 1-2, Elsevier, 2005, ISSN:09263373, DOI:10.1016/j.apcatb.2004.11.020, 133-141. SJR:2.088, ISI IF:7.435
Цитира се в:
889. Santos, V.P.G. et al., "Synthesis and characterization of perovskites lamno3 and γ-alumina as catalysts for methane combustion reaction" Revista MateriaOpen Access Volume 22, 2017, Article number e-11913, 11p, 2017 Линк
890. Cheng, Z.et al. , Gaseous cyclohexanone catalytic oxidation by a self-assembled Pt/γ-Al2O3 catalyst: Process optimization, mechanistic study, and kinetic analysis, RSC AdvancesVolume 7, Issue 74, 2017, Pages 46958-46968, 2017 Линк
page 83/232
244. Pascual, L., Gadjov, H., Kovacheva, D., Petrov, K., Herrero, P., Amarilla, J.M., Rojas, R.M., Rojo, J.M.. Effect of the thermal treatment on the particle size and electrochemical response of LiCr0.2Mn1.8O4 Spinel. Journal of the Electrochemical Society, 152, 2, 2005, ISSN:00134651, DOI:10.1149/1.1839558, A301-A306. ISI IF:3.17
Цитира се в:
891. Iqbal, A., Iqbal, Y., Khan, A.M., Ahmed, S. Synthesis and Electrochemical Performance of Urea Assisted Pristine LiMn2O4 Cathode for Li Ion Batteries (2017) Russian Journal of Physical Chemistry A, 91 (13), pp. 2671-2679., 2017 Линк
245. Tepavitcharova, S, Balarew, Chr, Rull, F, Rabadjieva, D, Iliev, A. Raman spectroscopic studies of ion association in the Na+, Mg2+/Cl-, SO42-/H2O system. Journal of Raman Spectroscopy, 36, 9, John Wiley & Sons, Ltd., 2005, ISSN:0377 0486, DOI:10.1002/jrs.1380, 891-897. SJR:1.047, ISI IF:2.359
Цитира се в:
892. Ye Wan et al. "In situ optical and Raman spectroscopic observations of the effects of pressure and fluid composition on liquid-liquid phase separation in aqueous cadmium sulfate solutions". Geocimica et Cosmochimica Acta, 211, pp. 133-152, 2017, 2017 Линк
893. Michael Salama, Ivgeni Shterenberg, Linda J. W. Shimon, Keren Keinan-Adamsky, Michal Afri, Yosef Gofer, and Doron Aurbach. "Structural Analysis of Magnesium-Chloride Complexes in Dimethoxyethane Solutions in the Context of Mg Batteries Research"" J. Phys. Chem. C, 121 (45), pp 24909–24918, 2017, 2017 Линк
246. Kostova, I., Kostova, R., Momekov, G, Trendafilova, N., Karaivanova, M.. Antineoplastic activity of new lanthanide (cerium, lanthanum and neodymium) complex compounds. Journal of Trace Elements in Medicine and Biology, 18, 3, Elsevier, 2005, 219-226. ISI IF:2.371
Цитира се в:
894. Kircheva, V.I., Zaharieva, J.T., Manolov, I., Milanova, M.M., Synthesis and characterization of lanthanoid complexes with 3, 3'-[(4-bromophenyl) methylene] bis (4-hydroxy-2h-1-benzopyrane-2-one), (2017) Bulgarian Chemical Communications, Vol. 49, pp. 160-165., 2017 Линк
895. Dagli, Ozge; Kose, Dursun Ali; Avci, Gulcin Alp; et al., Novel mixed-ligand complexes of coumarilate/N, N'-diethylnicotinamide with some transition metals Synthesis and structural characterization, 2017, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, Vol. 129 Issue: 3 pp.: 1389-1402., 2017 Линк
896. Moradi, Z., Khorasani-Motlagh, M., Noroozifar, M., Synthesis and biological evaluation of a new dysprosium(III) complex containing 2, 9-dimethyl 1, 10-phenanthroline, 2016 Journal of biomolecular Structure & Dynamics, vol. 35 pp. 300-311. DOI: 10.1080/07391102.2015.1137491, 2017 Линк
247. Kuznetsova, I.N., Blaskov, V., Stambolova, I., Znaidi, L., Kanaev, A.. TiO2 pure phase brookite with preferred orientation, synthesized as a spin-coated film. Materials Letters, 29-30, 2005, ISI IF:2.489
Цитира се в:
897. S salaeh et al., Reuse of TiO2-based catalyst for solar driven water treatment; thermal and chemical reactivation , Journal of Photochemistry and Photobiology A: Chemistry Volume 333, 15 January 2017, Pages 117-129, 2017
898. S. Gunti et al., Nanostructured photocatalysis in the visible spectrum for the decontamination of air and water, Intern. Mater Review, 2017 p. 1-26, 2017
899. James E. S. Haggerty, High-fraction brookite films from amorphous precursors, Scientific Reports 7, Article number: 15232 (2017), 2017
page 84/232
900. AS Zuruzi et al, In-Place Synthesis of Pt-Modified Brookite TiO2 Micrometre-Sized Sensing Elements via Wet Oxidation of Ti/Pt/Ti Films on Glass, Sensor Letters, 2017 Volume 15, Number 5, May 2017, pp. 402-406(5), 2017
901. O Malik et al., Spray Pyrolysis Processing for Optoelectronic Applications, Pyrolysis, 2017, in book Engineering » Chemical Engineering » "Pyrolysis", book edited by Mohamed Samer, ISBN 978-953-51-3312-4, Print ISBN 978-953-51-3311-7, Published: July 5, 2017 , Chapter 8, 2017
248. Mihaylov, M., Chakarova, K., Hadjiivanov , K., O. Marie, M. Daturi. FTIR Spectroscopy Study of CO Adsorption on Pt−Na−Mordenite. Langmuir, 21, 25, American Chemical Society, 2005, DOI:10.1021/la051877k, 11821-11828. ISI IF:4.457
Цитира се в:
902. S. Liu, J. M. Tan, A. Gulec, L. A. Crosby, T. L. Drake, N. M. Schweitze, M. Delferro, L. D. Marks, T. J. Marks, P. C. Stair, "Stabilizing Single-Atom and Small-Domain Platinum via Combining Organometallic Chemisorption and Atomic Layer Deposition", Organometallics, 36 (2017) 818-828., 2017 Линк
249. Uzunova S., Banov B., Momchilov A., Vassilev S., Stankulov T., Uzunov I.. A low external temperature method for synthesis of active electrode materials for Li batteries – Part A: Synthesis of pure manganese spinel. J.Apll.Electrochemistry, 35, 2, Springer, 2005, ISSN:0021-891X, 117-122. SJR:0.68, ISI IF:2.235
Цитира се в:
903. Mohan, Sanjay Krishna; Sarkar, Ritwik, Reaction sintered zinc oxide incorporated magnesium aluminate spinel from commercial grade oxide reactants, Journal of the Australian Ceramic Society, 53 (1) (2017) 207-216, 2017
250. Stambolova, I., Toneva, A., Blaskov, V., Radev, D., Tsvetanova, Ya., Vassilev, S., Peshev, P.. Preparation of nanosized spinel stannate, Zn2SnO4, from a hydroxide precursor. Journal of Alloys and Compounds, 2005, SJR:1.091, ISI IF:2.999
Цитира се в:
904. V K Premkumar, D. Selvakumaran, K. Mohanraj , Facile hydrothermally synthesized mesoporous manganous stannate (Mn 2 SnO 4) nanoparticles and its electrochemical properties, Materials Research Express, 4 (2017) 125010, 2017 Линк
905. C. Bangbai et al. , Effect of hexamethylenetetramine and temperature on morphological and structural properties of hydrothermally grown ZnSn (OH) 6 structure, Materials Today: Proceedings Volume 4, Issue 5, Part 2, 2017, Pages 6031-6036, 2017
251. Bachvarova-Nedelcheva A., Dimitriev Y., Iordanova R.. Glass formation in the systems Ag2SeO3-MnOm and CuSeO3-MnOm (MnOm = B2O3, MoO3). J. Non-Cryst. Sol., 351, 12-13, 2005, ISSN:0022-3093, 998-1002. SJR:1.003, ISI IF:1.18
Цитира се в:
906. Palui A. and Ghosh A., Ion dynamics in AgI doped silver selenium-tellurite mixed former glasses, Journal of Applied Physics, 121 (2017) p. 125104., 2017 Линк
252. Boshkov, N., Petrov, K., Kovacheva, D., Vitkova, S., Nemska, S.. Influence of the alloying component on the protective ability of some zinc galvanic coatings. Electrochimica Acta, 51, 1, 2005, ISSN:0013-4686, DOI:10.1016/j.electacta.2005.03.049, 77-84. ISI IF:4.504
Цитира се в:
907. Yang, Xu, et al. "Effect of power supply on the deposition of Zn on a steel substrate using
page 85/232
cathodic plasma electrolysis." Surface and Coatings Technology 325 (2017): 30-38., 2017 Линк
908. Ji, S. Y., et al. "Effects of lanthanum on the microstructure, electrochemical behavior, and anti‐corrosion properties of zinc–copper–titanium alloy in 3% sodium chloride solution." Materials and Corrosion 68.4 (2017): 458-467., 2017 Линк
909. Fashu, S., and R. Khan. "Studies on electrochemical deposition of novel Zn–Mn–Ni ternary alloys from an ionic liquid based on choline chloride." Protection of Metals and Physical Chemistry of Surfaces 53.1 (2017): 118-126., 2017 Линк
910. Tafreshi M. Allahkaram S. R. Farhangi H. Effect of Electrodeposition Parameters on Chemical Composition, Cathodic Current Efficiency, Hardness and Morphology of Zn-Ni Alloy Coatings Metallurgy and Materials Engineering 29, Number 2 103-114, 2017, 2017 Линк
253. Radev D. D., Marinov M., Tumbalev V., Radev I., Konstantinov L.. MECHANICALLY ACTIVATED SELF-PROPAGATED HIGH-TEMPERATURE SYNTHESIS OF NANOMETER-STRUCTURED MgB2. Physica C, 418, 1-2, 2005, ISSN:0921-4534, DOI:10.1016/j.physc.2004.11.016, 53-58. ISI IF:0.942
Цитира се в:
911. Potanin, A. Yu, E. A. Levashov, and D. Yu Kovalev. "Dynamics of phase formation during the synthesis of magnesium diboride from elements in thermal explosion mode." Russian Journal of Non-Ferrous Metals 58.4 (2017): 396-404., 2017 Линк
912. Ekrem Yanmaz , Claudia Castillo-Berrio, Ümit Alkan, A. Tolga Ülgen , Fırat Karaboğa, Osman Enis, Didem Odabaşı Cingi, Pelin Alcan, İlkay Saraçoğlu , Bulk MgxB2 superconductor production by excess Mg and hot press methods and their properties, JOURNAL OF BORON, BORON 2 (1), 43 - 48, 2017, 2017 Линк
254. Faradzhev, N.S., Kostov, K.L., Feulner, P., Madey, T.E., Menzel, D.. Stability of water monolayers on Ru(0001): Thermal and electronically induced dissociation. Chemical Physics Letters, 415, 1-3, Elsevier, 2005, ISSN:0009-2614, DOI:10.1016/j.cplett.2005.08.119, 165-171. ISI IF:1.897
Цитира се в:
913. Liu, F., Sturm, J.M., Lee, C.J. and Bijkerk, F., Coexistence of ice clusters and liquid-like water clusters on the Ru (0001) surface. Physical Chemistry Chemical Physics, 19(12), pp.8288-8299, 2017., 2017
255. Kovacheva, D., Markovsky, B., Salitra, G., Talyosef, Y., Gorova, M., Levi, E., Riboch, M., Kim, H.-J., Aurbach, D.. Electrochemical behavior of electrodes comprising micro- and nano-sized particles of LiNi0.5Mn1.5O4: A comparative study. Electrochimica Acta, 50, 28, 2005, ISSN:0013-4686, DOI:10.1016/j.electacta.2005.03.055, 5553-5560. ISI IF:4.504
Цитира се в:
914. Hao, Jingmin, et al. "Synthesis and electrochemical performance of Sn-doped LiNi0. 5Mn1. 5O4 cathode material for high-voltage lithium-ion batteries." Science China Materials 60.4 (2017): 315-323., 2017 Линк
915. Cui, Xiaoling, et al. "Effects of different precipitants on LiNi0. 5Mn1. 5O4 for lithium ion batteries prepared by modified co-precipitation method." Ionics (2017): 1-7., 2017 Линк
916. Zhao Shixi, et al. "Advances in the mechanism of Li2MnO3 activation and its influencing factors." Journal of the Chinese Ceramic Society 45.4 (2017): 495-503., 2017 Линк
917. Apostolova, Raisa. "Thin-Layer LiMn2O4, Carbon Nanotubes Composite Electrodes in Lithium Prototype Accumulator." ECS Transactions 81.1 (2017): 3-14., 2017 Линк
918. Shuangtao, G. U. O., ZHAO Shixi1 DENG Yufeng, and XIONG Kai3 XU Yahui3 NAN Cewen. "Progress on Mechanism and Impacting Factor of Elec…."Journal of Chinese Ceramic
page 86/232
Society, 2017, 45(4):495-503., 2017 Линк
919. Olga, V., Viktoriya, O., MATERIALS FOR RECHARGEABLE LITHIUM-ION BATTERIES, American Scientific Journal № (12) 25-33 2017., 2017 Линк
920. Amin, Ruhul, and Ilias Belharouak. "Part-II: Exchange current density and ionic diffusivity studies on the ordered and disordered spinel LiNi 0.5 Mn 1.5 O 4 cathode." Journal of Power Sources 348 (2017): 318-325., 2017 Линк
921. Amin, Ruhul, and Ilias Belharouk. "Part I: Electronic and ionic transport properties of the ordered and disordered LiNi 0.5 Mn 1.5 O 4 spinel cathode." Journal of Power Sources 348 (2017): 311-317., 2017 Линк
922. Liu, Weijie, et al. "Improved Li-ion diffusion and stability of a LiNi 0.5 Mn 1.5 O 4 cathode through in situ co-doping with dual-metal cations and incorporation of a superionic conductor." Journal of Materials Chemistry A 5.1 (2017): 145-154., 2017 Линк
256. Koseva, I., Chaminade, J.-P., Gravereau, P., Pechev, S., Peshev, P., Etourneau, J.. A new family of isostructural titanates, MLi2Ti6O14 (M = Sr, Ba, Pb). Journal of Alloys and Compounds, 389, 2005, DOI:10.1016/j.jallcom.2004.08.026, 47-54. SJR:1.091, ISI IF:2.999
Цитира се в:
923. Yu, Haoxiang, et al. "Comparative study of Pb 1-x Ba x Li 2 Ti 6 O 14 (0≤ x≤ 1) as lithium storage materials for secondary batteries." Journal of Power Sources 357 (2017): 179-187., 2017
924. Luo, Minghe, et al. "Lithiation-delithiation kinetics of BaLi 2 Ti 6 O 14 anode in high-performance secondary Li-ion batteries." Journal of Electroanalytical Chemistry 786 (2017): 86-93., 2017
925. Yu, Haoxiang, et al. "Ba 0.9 La 0.1 Li 2 Ti 6 O 14: Advanced lithium storage material for lithium-ion batteries." Electrochimica Acta 232 (2017): 132-141., 2017
926. Tao, Wei, et al. "Structure and electrochemical performance of BaLi2− xNaxTi6O14 (0≤ x≤ 2) as anode materials for lithium-ion batteries, Science China Materials 60.8 (2017): 728-738., 2017
927. Yu, Haoxiang, et al. "Fabrication of Ba 0.95 M 0.05 Li 2 Ti 6 O 14 (M = Ag, Pb, Al) as high performance anode candidates for lithium secondary batteries." Electrochimica Acta 228 (2017): 453-461., 2017
928. Sun, Chen, et al. "Improved the lithium storage capability of Na2Li2Ti6O14 by barium doping." Journal of Electroanalytical Chemistry 802 (2017): 100-108., 2017
929. Wu, Yaoyao, et al. "Preparation and characterization of SrLi 2 Ti 6 O 14 C/Ag as lithium storage anode material for rechargeable batteries." Ceramics International 43.9 (2017): 7231-7236., 2017
930. Qian, Shangshu, et al. "Improve the lithium storage performance of SrLi 2 Ti 6 O 14 anode material by trivalent metal ion doping." Journal of Power Sources 343 (2017): 329-337., 2017
931. Sun, Xuemin, Shengyu Yin, and Chuanqi Feng. "Synthesis and electrochemical properties of PbLi2Ti6O14 for lithium ion battery applications." Journal of Solid State Electrochemistry (2017): 1-6., 2017
932. Lan, Hua, et al. "Sr 1− x Na 2x Li 2 Ti 6 O 14 (0≤ x≤ 1) as anode materials for rechargeable Li-ion batteries." Ceramics International 43.1 (2017): 1552-1557., 2017
933. Zhang, Yanyu, et al. "PVP derived C/N coated SrLi2Ti6O14 as high performance anode material for lithium ion battery." Ceramics International 43.15 (2017): 12357-12361., 2017
257. Georgieva, I., Trendafilova, N., Aquino, A., Lischka, H.. Excited State Properties of 7-hydroxy-4-
page 87/232
methylcoumarin in the gas phase and in solution. A theoretical study. Journal of Physical Chemsitry A, 109, 51, American Chemical Society, 2005, 11860-11869. ISI IF:2.952
Цитира се в:
934. Lanterna, A.E., González-Béjar, M., Frenette, M., Scaiano, J.C. , Photophysics of 7-mercapto-4-methylcoumarin and derivatives: Complementary fluorescence behaviour to 7-hydroxycoumarins, Photochemical and Photobiological Sciences, 16(8) , 1284-1289, 2017., 2017 Линк
258. Stoilova, D., Marinova, D., Georgiev, M.. Infrared study of the vibrational behavior of CrO42- guest ions matrix-isolated in metal (II) sulfates (Me = Ca, Sr, Ba, Pb). Journal of Molecular Structure, 738, Elsevier, 2005, ISSN:ISSN 0022-2860, DOI:doi:10.1016/j.molstruc.2004.12.016, 211-215. SJR:0.405, ISI IF:1.602
Цитира се в:
935. Otero, V., Campos, M. F., Pinto, J. V., Vilarigues, M., Carlyle, L., & Melo, M. J. "Barium, zinc and strontium yellows in late 19th–early 20th century oil paintings". Heritage Science, 5(1), 46, 2017, 2017 Линк
259. Kostova, I., Trendafilova, N., Momekov, G. Theoretical and spectroscopic evidence for coordination ability of 3,3’-benzylidenedi-4-hydroxycoumarin. New neodymium(III) complex and its cytotoxic effect. Journal of Inorganic Biochemistry, 99, 2, Elsevier, 2005, 477-487. ISI IF:3.444
Цитира се в:
936. Kircheva, V.I., Zaharieva, J.T., Manolov, I., Milanova, M.M., Synthesis and characterization of lanthanoid complexes with 3, 3'-[(4-bromophenyl) methylene] bis (4-hydroxy-2h-1-benzopyrane-2-one), (2017) Bulgarian Chemical Communications, Vol. 49, pp. 160-165., 2017 Линк
260. Chakarova, K., Mihaylov, M., Hadjiivanov, K.. Polycarbonyl species in Pt/H–ZSM-5: FTIR spectroscopic study of 12CO–13CO co-adsorption. Catalysis Communications, 6, 2005, DOI:10.1016/j.catcom.2005.04.007, 466-471. ISI IF:2.098
Цитира се в:
937. E. Gutterød, S. Øien-Ødegaard, K. Bossers, A. Nieuwelink, M. Manzoli, L. Braglia, A. Lazzarini, E. Borfecchia, S. Ahmadigoltapeh, B. Bouchevreau, B.T.L. Bleken, R. Henry, C. Lamberti, S. Bordiga, B.M. Weckhuysen, K.P. Lillerud, U. Olsbye, "CO2 Hydrogenation over Pt-Containing UiO-67 Zr-MOFs—The Base Case", Industrial & Engineering Chemistry Research, 56 (2017) 13206-13218., 2017 Линк
261. Zhecheva, E., Stoyanova, R.. Effect of allied and alien ions on the EPR spectrum of Mn 4+-containing lithium-manganese spinel oxides. Solid State Communications, 135, 7, 2005, ISSN:0038-1098, 405-410. SJR:0.776, ISI IF:1.458
Цитира се в:
938. Barudžij, Tanja S. (2017) PhD Thesis "ISPITIVANJE STRUKTURNIH I MAGNETNIH SVOJSTAVA RAZLIČITIH POLIMORFA MANGAN−DIOKSIDA", University of Belgrade, 2017 Линк
939. Tang, M., Dalzini, A., Li, X., Feng, X., Chien, P. H., Song, L., & Hu, Y. Y. (2017). Operando EPR for Simultaneous Monitoring of Anionic and Cationic Redox Processes in Li-Rich Metal Oxide Cathodes. The journal of physical chemistry letters, 8(17), 4009-4016., 2017 Линк
940. Barudžija, T., Cvjetićanin, N., Bajuk-Bogdanović, D., Mojović, M., & Mitrić, M. (2017). Vibrational and electron paramagnetic resonance spectroscopic studies of β-MnO2 and α-KxMnO2 nanorods. Journal of Alloys and Compounds, 728, 259-270., 2017 Линк
page 88/232
262. Shinova, E., Zhecheva, E., Stoyanova, R., Bromiley, G. D... High-pressure synthesis of solid solutions between trigonal LiNiO 2 and monoclinic Li[Li1/3Ni2/3]O2. Journal of Solid State Chemistry, 176, 5, 2005, ISSN:0022-4596, 1661-1665. SJR:0.703, ISI IF:2.265
Цитира се в:
941. Xu, C., Xiao, W., Liu, T., Sun, F., Zheng, J., Peng, S., Liu, X., Pan, F., Yang, W., Mao, H.-K. "Pressure-induced abnormal insulating state in triangular layered cobaltite LixCoO2(x = 0.9)" (2017) Journal of Materials Chemistry A, 5 (36), pp. 19390-19397, 2017 Линк
942. Yan, H., Li, B., Yu, Z., Chu, W., & Xia, D. (2017). First-Principles Study: Tuning the Redox Behavior of Lithium-Rich Layered Oxides by Chlorine Doping, J. Phys. Chem. C, 2017, 121 (13), pp 7155–7163., 2017 Линк
943. Kim, S., Aykol, M., Hegde, V. I., Lu, Z., Kirklin, S., Croy, J. R., ... & Wolverton, C. (2017). Material design of high-capacity Li-rich layered-oxide electrodes: Li 2 MnO 3 and beyond. Energy & Environmental Science, 10(10), 2201-2211., 2017 Линк
263. Dimitriev, Y.,, Iordanova, R.,, Mancheva, M.,, Klissurski, D.,. Preparation of nano-crystalline WO3 and MoO3 by different sol-gel methods. Chemistry for Sustainable Development, 13, Publishing House of Siberian Branch of the Russian Academy of Sciences, 2005, 185-189
Цитира се в:
944. Rheem, Youngwoo, et al. "Synthesis of hierarchical MoO2/MoS2 nanofibers for electrocatalytic hydrogen evolution." Nanotechnology 28.10 (2017): 105605., 2017 Линк
264. Avramova, I., Stefanov, P., Nicolova, D., Stoychev, D., Marinova, Ts.. Characterization of nanocomposite CeO2-Al2 O3 coatings electrodeposited on stainless steel. Composites Science and Technology, 65, 11-12, Elsevier BV, 2005, ISSN:0266-3538, 1663-1667. SJR:1.512, ISI IF:4.44
Цитира се в:
945. Cheng, W.-L., Zhao, Q.-L., Shi, F. Manipulating microstructures and electrical properties of carbon fiber/reduced graphene oxide/nickel composite textiles with electrochemical deposition techniques (2017) Applied Physics A: Materials Science and Processing, 123 (4), art. no. 221, ., 2017 Линк
265. Shinova, E., Zhecheva, E., Stoyanova, R., Bromiley, G. D., Alcantara, R., Tirado, J. L.. High-pressure synthesis and electrochemical behavior of layered (1-a)LiNi1-yAlyO2·aLi[Li 1/3Ni2/3]O2 oxides. Journal of Solid State Chemistry, 179, 9, 2005, ISSN:0022-4596, 2692-2700. ISI IF:2.133
Цитира се в:
946. Kim, S., Aykol, M., Hegde, V.I., Lu, Z., Kirklin, S., Croy, J.R., Thackeray, M.M., Wolverton, C. "Material design of high-capacity Li-rich layered-oxide electrodes: Li2MnO3and beyond". Energy and Environmental Science, 10 (10), pp. 2201-2211, 2017, 2017 Линк
947. Yan, H., Li, B., Yu, Z., Chu, W., & Xia, D. (2017). First-Principles Study: Tuning the Redox Behavior of Lithium-Rich Layered Oxides by Chlorine Doping, J. Phys. Chem. C, 2017, 121 (13), pp 7155–7163., 2017 Линк
948. Xu, C., Xiao, W., Liu, T., Sun, F., Zheng, J., Peng, S., ... & Mao, H. K. (2017). Pressure-induced abnormal insulating state in triangular layered cobaltite Li x CoO 2 (x = 0.9). Journal of Materials Chemistry A, 5(36), 19390-19397., 2017 Линк
266. Stefanov, P., Avramova, I., Stoichev, D., Radic, N., Grbic, B., Marinova, Ts.. Characterization and catalytic activity of Cu-Co spinel thin films catalysts. Applied Surface Science, 245, 1-4, 2005, ISSN:0169-4332, 65-72. SJR:0.913, ISI IF:4.439
Цитира се в:
page 89/232
949. Ueda, K., Ohyama, J., Satsuma, A. Investigation of Reaction Mechanism of NO-C3H6-CO-O2 Reaction over NiFe2O4 Catalyst (2017) ACS Omega, 2 (7), pp. 3135-3143., 2017 Линк
950. Nwanya, A.C., Awada, C., Obi, D., Raju, K., Ozoemena, K.I., Osuji, R.U., Ruediger, A., Maaza, M., Rosei, F., Ezema, F.I. Nanoporous copper-cobalt mixed oxide nanorod bundles as high performance pseudocapacitive electrodes (2017) Journal of Electroanalytical Chemistry, 787, pp. 24-35., 2017 Линк
951. Wang, H., Wang, J., Zhong, Q., Zhang, G., Bu, Y. Mesoporous Spinel Nanofibers and Nitrogen-doped Carbon Nanotubes as High-Performance Electrocatalyst for Oxygen Reduction in Alkaline and Neutral Media (2017) Energy Technology, 5 (2), pp. 283-292., 2017 Линк
952. Fan, S.-B., Kouotou, P.M., Weng, J.-J., Pan, G.-F., Tian, Z.-Y. Investigation on the structure stability and catalytic activity of Cu-Co binary oxides (2017) Proceedings of the Combustion Institute, 36 (3), pp. 4375-4382., 2017 Линк
267. Koleva V.. Metal-water interactions and hydrogen bonding in dittmarite-type compounds M'M''PO4.H2O (M' = K+, NH4+; M'' = Mn2+, Co2+, Ni2+). Correlations of IR spectroscopic and structural data. Spectrochimica Acta Part A, 62, 4-5, Elsevier, 2005, ISSN:1386-1425, 1196-1202. ISI IF:2.353
Цитира се в:
953. Таня Йорданова Бояджиева, “Метални фосфати като електродни материали в алкални йонни батерии”, Докторска Дисертация, 2017, Българска академия на науките, София, лит. 187, 2017
954. Priyadharsini, N., & Selvan, R. K. (2017). Nano-sheet-like KNiPO4 as a positive electrode material for aqueous hybrid supercapacitors. Electrochimica Acta, 246, 963-970., 2017 Линк
955. Liu, C., Peng, H., Cao, L., Duan, X., Zhang, Y., & Xiao, P. (2017). Liquid-phase exfoliation of NH 4 Co 0.4 Ni 0.6 PO 4• H 2 O for energy storage device. Journal of Alloys and Compounds, 701, 67-74., 2017 Линк
268. Barisic, V., Klingstedt, F., Naydenov, A., Stefanov, P., Kipinen, P., Hupa, M.. Catalytic activity of bed materials from industrial CFB boilers for the decomposition of N2O. Catalysis Today, 100, 3-4, Elsevier, 2005, DOI:10.1016/j.cattod.2004.10.022, 337-342. ISI IF:3.89
Цитира се в:
956. Chang-Sang Cho, Min-Wook Kim, Seong-Min Kang, Yoon-jung Hong, and Eui-Chan Jeon, Study on the Variance of N2O Concentration after Air Pollution Prevention Facility in Bituminous Coal-Firing Power Plant, Energy Fuels, 2017, 31 (4), pp 4173–4178, 2017 Линк
269. Panayotov, D., Yates, J.T., Jr.. Depletion of conduction band electrons in TiO2 by water chemisorption – IR spectroscopic studies of the independence of Ti–OH frequencies on electron concentration. Chemical Physics Letters, 410, Elsevier Science B.V., 2005, ISSN:0009-2614, DOI:http://dx.doi.org/10.1016/j.cplett.2005.03.146, 11-17. ISI IF:1.897
Цитира се в:
957. Merdrignac-Conanec, O.; Durand, G.; Walfort, S.; Hakmeh, N.; Zhang, X., "Elaboration of CaLa2S4 transparent ceramics from novel precursor powders route". Ceramics International 2017, 43 (8), 5984-5989, 2017 Линк
958. Sun, X.; Hussain, A. H. M. S.; Chi, M.; Cheng, X.; Tatarchuk, B. J., "Persistent adsorptive desulfurization enhancement of TiO2 after one-time ex-situ UV-treatment". Fuel 2017, 193 (Supplement C), 95-100, 2017 Линк
959. Celorrio, V.; Quaino, P. M.; Santos, E.; Florez-Montaño, J.; Humphrey, J. J. L.; Guillén-
page 90/232
Villafuerte, O.; Plana, D.; Lázaro, M. J.; Pastor, E.; Fermín, D. J., "Strain Effects on the Oxidation of CO and HCOOH on Au–Pd Core–Shell Nanoparticles". ACS Catalysis 2017, 7 (3), 1673-1680., 2017 Линк
960. Wang, Z.; Wang, K.; Peng, X.; Geng, Q.; Chen, X.; Dai, W.; Fu, X.; Wang, X., "Comparative study of ultraviolet light and visible light on the photo-assisted conductivity and gas sensing property of TiO2". Sensors and Actuators B: Chemical 2017, 248 (Supplement C), 724-732, 2017 Линк
961. Liao, L.; Heylen, S.; Sree, S. P.; Vallaey, B.; Keulemans, M.; Lenaerts, S.; Roeffaers, M. B. J.; Martens, J. A., "Photocatalysis assisted simultaneous carbon oxidation and NOx reduction". Applied Catalysis B: Environmental 2017, 202 (Supplement C), 381-387, 2017 Линк
962. Soria, J.; Sanz, J.; Torralvo, M. J.; Sobrados, I.; Garlisi, C.; Palmisano, G.; Çetinkaya, S.; Yurdakal, S.; Augugliaro, V., "The effect of the surface disordered layer on the photoreactivity of titania nanoparticles". Applied Catalysis B: Environmental 2017, 210 (Supplement C), 306-319, 2017 Линк
963. Barkul, R. P.; Patil, M. K.; Patil, S. M.; Shevale, V. B.; Delekar, S. D., "Sunlight-assisted photocatalytic degradation of textile effluent and Rhodamine B by using iodine doped TiO2 nanoparticles". Journal of Photochemistry and Photobiology A: Chemistry 2017, 349 (Supplement C), 138-147, 2017 Линк
964. Dilla, M.; Mateblowski, A.; Ristig, S.; Strunk, J., "Photocatalytic CO2 Reduction under Continuous Flow High-Purity Conditions: Influence of Light Intensity and H2O Concentration". ChemCatChem 2017, 9 (23), 4345-4352, 2017 Линк
270. Grigorova E., Khristov M., Khrussanova M., Bobet J.-L., Peshev P.. Effect of additives on the hydrogen sorption properties of mechanically alloyed composites based on Mg andMg2Ni. International Journal of Hydrogen Energy, 30, Elsevier, 2005, ISSN:03603199, DOI:10.1016/j.ijhydene.2004.10.018, 1099-1105. SJR:1.141, ISI IF:3.313
Цитира се в:
965. EI Gkanas, et al. "Synthesis and Hydrogen Sorption Characteristics of Mechanically Alloyed Mg (NixMn1-x) 2 Intermetallics", Materials Science, 2017 arXiv:1702.04807v1., 2017 Линк
966. Yoogeun BAE, Chulmin HWANG, Jongsoo KIM, Xing LONG DONG, Sewoong KIM, Younguan JUNG. "Formation and Hydrogen Absorption Properties of Intermetallic Mg-Ni Compound Nanoparticles ". . Trans. of Korean Hydrogen and New Energy Society, Vol. 28, No. 3, pp. 238-245 DOI: https://doi.org/10.7316/KHNES.2017.28.3.238 2017, 2017 Линк
967. Xuan Quy Tran, et al. "Effect of trace Na additions on the hydriding kinetics of hypo-eutectic Mg-Ni alloys".INTERNATIONAL JOURNAL OF HYDROGEN ENERGY. Volume: 42 Issue: 10 Pages: 6851-6861, 2017, 2017 Линк
271. Chakarova, K., Mihaylov, M., Hadjiivanov , K.. FTIR Spectroscopic Study of CO Adsorption on Pt–H–ZSM-5. Microporous and Mesoporous Materials, 81, 1-3, Elsevier, 2005, DOI:doi:10.1016/j.micromeso.2005.01.033, 305-312. ISI IF:3.355
Цитира се в:
968. S. Liu, J. M. Tan, A. Gulec, L. A. Crosby, T. L. Drake, N. M. Schweitze, M. Delferro, L. D. Marks, T. J. Marks, P. C. Stair, "Stabilizing Single-Atom and Small-Domain Platinum via Combining Organometallic Chemisorption and Atomic Layer Deposition", Organometallics, 36 (2017) 818-828., 2017 Линк
969. C. Asokan, L. DeRita, P. Christopher, "Using probe molecule FTIR spectroscopy to identify and characterize Pt-group metal based single atom catalysts", Chinese Journal of Catalysis, 38 (2017) 1473-1480., 2017 Линк
page 91/232
970. L. DeRita, S. Dai, K. Lopez-Zepeda, N. Pham, G. W. Graham, X. Pan, P. Christopher, "Catalyst Architecture for Stable Single Atom Dispersion Enables Site-Specific Spectroscopic and Reactivity Measurements of CO Adsorbed to Pt Atoms, Oxidized Pt Clusters, and Metallic Pt Clusters on TiO2", Journal of the American Chemical Society, 139 (2017) 14150-14165., 2017 Линк
971. E. Gutterød, S. Øien-Ødegaard, K. Bossers, A. Nieuwelink, M. Manzoli, L. Braglia, A. Lazzarini, E. Borfecchia, S. Ahmadigoltapeh, B. Bouchevreau, B.T.L. Bleken, R. Henry, C. Lamberti, S. Bordiga, B.M. Weckhuysen, K.P. Lillerud, U. Olsbye, "CO2 Hydrogenation over Pt-Containing UiO-67 Zr-MOFs—The Base Case", Industrial & Engineering Chemistry Research, 56 (2017) 13206-13218., 2017 Линк
972. R.M. Kennedy, "Support and Overcoating Effects on Selective Catalysis of Platinum Nanoparticle Model Catalysts", Ph. D. Thesis, Northwestern University, Evanston, USA, 2017 [GS]., 2017
2006
272. Stoyanova, M., Konova, P., Nikolov, P., Naydenov, A., Christoskova, St., Mehandjiev, D.. Alumina-supported nickel oxide for ozone decomposition and catalytic ozonation of CO and VOCs. Chemical Engineering Journal, 122, 1-2, Elsevier, 2006, ISSN:13858947, DOI:10.1016/j.cej.2006.05.018, 41-46. SJR:0.972, ISI IF:4.321
Цитира се в:
973. Hu, M., Yao, Z., Hui, K. N., & Hui, K. S., "Novel mechanistic view of catalytic ozonation of gaseous toluene by dual-site kinetic modelling.", Chemical Engineering Journal, 308 (2017) 710-718., 2017 Линк
974. Liu, Y., & Zhang, P., "Catalytic decomposition of gaseous ozone over todorokite-type manganese dioxides at room temperature: Effects of cerium modification.", Applied Catalysis A: General, 530 (2017) 102-110., 2017 Линк
975. Bin Zhu, Xiao-Song Li, PengSun, Jing-Lin Liu, Xiao-Yuan Ma, Xiaobing Zhu, Ai-MinZhu, “A novel process of ozone catalytic oxidation for low concentration formaldehyde removal”, Chinese Journal of Catalysis, 38/10 (2017) 1759-1769., 2017 Линк
976. Ahmad Jonidi Jafari, Majid Kermani, Roshanak Rezaei Kalantary and Hossein Arfaeinia, “Photocatalytic abatement of o-xylene using adsorption enhanced ZnO/GAC catalyst in a continuous flow reactor: Catalytic potential, Fate of o-xylene and its by-products”, Global NEST Journal, 19/3 (2017) 479-488., 2017 Линк
977. Yang Liu and Pengyi Zhang, “Removing Surface Hydroxyl Groups of Ce-Modified MnO2 To Significantly Improve Its Stability for Gaseous Ozone Decomposition”, J. Phys. Chem. C, 121/42 (2017) 23488–23497., 2017 Линк
273. Georgieva, I., Trendafilova, N., Bauer, G.. Spectroscopic and theoretical study of Cu(II), Zn(II), Ni(II), Co(II) and Cd(II) complexes of glyoxilic acid oxime. Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, 63, 2, Elsevier, 2006, 403-415. ISI IF:2.353
Цитира се в:
978. El-Asmy, A.A., Shabana, A., El-Maaty, W.A., Mostafa, M.M. , Synthesis, spectroscopic characterization, molecular modeling and eukaryotic DNA degradation of new hydrazone complexes, Arabian Journal of Chemistry, 10(1), S936-S945, 2017., 2017 Линк
979. Davaasuren, B., Khanderi, J., Rothenberger, A., Polynuclear Iron-Oxo/Hydroxy Complexes of Ketoacidoximate Ligands: Synthesis, Structures and Conversion to Ferric Oxide (2017) ChemistrySelect, Vol. 2, (17), pp. 4642–4647., 2017 Линк
page 92/232
274. Grbic, B., Radic , N, Markovic, B., Stefanov, P., Stoychev, D., Marinova, Ts. Influence of manganese oxide on the activity of Pt/Al2O3 catalyst for CO and n-hexane oxidation. Applied Catalysis B: Environmental, 64, 1-2, Elsevier, 2006, ISSN:09263373, DOI:10.1016/j.apcatb.2005.11.001, 51-56. SJR:2.088, ISI IF:7.435
Цитира се в:
980. S.Punde, B. Tatarchuk, "CO removal at ambient conditions: Catalyst screening and impact of operating conditions" Separation and Purification Technology 183 (2017) p.43., 2017 Линк
275. Balchev, I., Minkovski, N., Marinova, Ts., Shipochka, M., Sabotinov, N.. Composition and structure characterization of aluminum after laser ablation. Materials Science and Engineering B: Solid-State Materials for Advanced Technology, 135, 2, Elsevier, 2006, ISSN:0921-5107, 108-112. SJR:0.715, ISI IF:1.846
Цитира се в:
981. Liu, Y. et al., "CO hydrogenation to higher alcohols over CuZnAl catalysts without promoters: Effect of pH value in catalyst preparation", Fuel Processing TechnologyVolume 167, 2017, Pages 575-581, 2017 Линк
982. Yu, J. et al., "Borane-Aluminum Surface Interactions: Enhanced Fracturing and Generation of Boron-Aluminum Core-Shell Nanoparticles", Journal of Physical Chemistry C, Volume 121, Issue 26, 6 July 2017, Pages 14176-14190, 2017 Линк
276. Markovsky, B., Kovacheva, D., Talyosef, Y., Gorova, M., Grinblat, J., Aurbach, D.. Studies of nanosized LiNi 0.5Mn 0.5O 2-lavered compounds produced by self-combustion reaction as cathodes for lithium-ion batteries. Electrochemical and Solid-State Letters, 9, 10, 2006, ISSN:10990062, DOI:10.1149/1.2221765, A449-A453. SJR:0.842
Цитира се в:
983. Leifer, Nicole, et al. "Studies of Spinel-to-Layered Structural Transformations in LiMn2O4 Electrodes Charged to High Voltages." The Journal of Physical Chemistry C 121.17 (2017): 9120-9130., 2017 Линк
984. Kim, Dong-jin, et al. "Lithium-silicate coating on Lithium Nickel Manganese Oxide (LiNi0. 7Mn0. 3O2) with a Layered Structure."Journal of the Korean Powder Metallurgy Society 24.2 (2017): 87-95., 2017 Линк
277. Radev, L., Khristova, M, Mehandjiev, D., Samuneva, B.. Sol-gel Ag + Pd/SiO2 as a catalyst for reduction of NO with CO. Catalysis Letters, 112, 3-4, 2006, ISSN:1011372X, DOI:10.1007/s10562-006-0200-1, 181-186. ISI IF:2.485
Цитира се в:
985. Sánchez, Luis Antonio Flores, Juan Manuel Quintana Melgoza, and Arturo Barrera Rodríguez. "SÍNTESIS DE Co3O4 A BASE DE ALCÓXIDOS DE SODIO PARA LA DESCOMPOSICIÓN CATALÍTICA DE NO y CO." Número Especial de la Revista Aristas: Investigacion Básica y Aplicada. ISSN 2007-9478, Vol.6, Núm. 11. Año 2017., 2017
278. Nikolova D., Stoyanova E., Stefanov, P., Stoychev, D., Marinova Ts.. Anodic behaviour of stainless steel covered with an electrochemically deposited Ce2O3-CeO2 film. Surface and Coatings Technology, 201, 3-4, Elsevier, 2006, ISSN:0257-8972, DOI:10.1016/j.surfcoat.2006.02.026, 1559-1567. SJR:0.874, ISI IF:2.589
Цитира се в:
986. Nande, V.N. et al., "Preparation of Cerium Dioxide Layers on Titanium by
page 93/232
Electrodeposition with Organic Solution", Journal of NanomaterialsOpen Access Volume 2017, 2017, Article number 7214617, 2017 Линк
279. Atanassova, E., Spassov, D., Paskaleva, A., Kostov, K.. Composition of Ta2O5 stacked films on N2O- and NH3-nitrided Si. Applied Surface Science, 253, 5, Elsevier, 2006, DOI:10.1016/j.apsusc.2006.05.116, 2841-2851. ISI IF:2.711
Цитира се в:
987. Park, J.-H., Kim, K.-D., Jeon, H.-T., Park, J.-W., Investigation of the barrier properties of copper-vanadium alloys with a sub-tantalum layer on low-k dielectrics, Journal of Alloys and Compounds, Volume 722, 25 October 2017, Pages 259–264., 2017 Линк
280. Grigorova E., Khristov M., Khrussanova M., Peshev P.. Addition of 3d-metals with formation of nanocomposites as a way to improve the hydrogenation characteristics of Mg2Ni. Journal of Alloys and Compounds, 414, Elsevier, 2006, ISSN:09258388, DOI:10.1016/j.jallcom.2005.07.041, 298-301. SJR:1.091, ISI IF:2.999
Цитира се в:
988. Dell'Era, A., et al. "Synthesis and characterization of a Mg-Ni-RE alloy for hydrogen storage".INTERNATIONAL JOURNAL OF HYDROGEN ENERGY. Volume: 42 Issue: 42 Pages: 26333-26342, 2017, 2017 Линк
989. Si, Tingzhi, et al. "Solid solution of Cu in Mg2NiH4 and its destabilized effect on hydrogen desorption".MATERIALS CHEMISTRY AND PHYSICS. Volume: 193 Pages: 1-6, 2017, 2017 Линк
281. Konova, P., Stoyanova, M., Naydenov, A., Christoskova, St., Mehandjiev, D. Catalytic Oxidation of VOCs and CO by Ozone over Alumina Supported Cobalt Oxide. Applied Catalysis A: General, 298, 1-2, ELSEVIER, 2006, DOI:10.1016/j.apcata.2005.09.027, 109-114. SJR:1.679, ISI IF:3.942
Цитира се в:
990. Lin, K. Y. A., Lin, T. Y., Chen, Y. C., & Lin, Y. F., "Ferrocene as an efficient and recyclable heterogeneous catalyst for catalytic ozonation in water", Catalysis Communications, 95 (2017) 40-45., 2017 Линк
991. Sable, S. S., Ghute, P. P., Fakhrnasova, D., Mane, R. B., Rode, C. V., Medina, F., & Contreras, S., "Catalytic ozonation of clofibric acid over copper-based catalysts: In situ ATR-IR studies." Applied Catalysis B: Environmental 209 (2017) 523-529., 2017 Линк
992. Yang Liu and Pengyi Zhang, “Removing Surface Hydroxyl Groups of Ce-Modified MnO2 To Significantly Improve Its Stability for Gaseous Ozone Decomposition”, Phys. Chem. C, 121/42 (2017) 23488–23497., 2017 Линк
993. Gucheng Zhang, Jing Zhang, Yongli Zhang, Peng Zhou, Chenmo Wei, Wenshu Li, Tao Liang “Degradation of dimethyl phthalate by peroxomonosulfate ion activated by Zn–NiOx catalyst”, Reaction Kinetics, Mechanisms and Catalysis, 122/2 (2017) 1175–1192., 2017 Линк
994. S. A. Hosseini, “A Study of Catalytic Performance of Co3O4 and Cu-Co Nano Metal Oxides in Combustion of Aromatics“, Iranian Journal of Chemical Engineering, 14/2 (2017), 83-90., 2017 Линк
995. Barwe, S., Andronescu, C., Masa, J., Ventosa, E., Klink, S., Genç, A., ... & Schuhmann, W., "Polybenzoxazine‐derived Nitrogen‐Doped Carbon as Matrix for Powder‐based Electrocatalysts", ChemSusChem, 10/12 (2017) 2653–2659., 2017 Линк
282. Kassabova N., Stoyanova D., Vladov D., Mehandjiev D., Shishkov D.. Spent Pd catalyst – component for oxide catalysts, designed for CO oxidation and NO reduction. Chemical Engineering Journal, 2006, 107-
page 94/232
111. ISI IF:4.32
Цитира се в:
996. Yu, W., Lin, H.-W., Tan, C.-S. Direct synthesis of Pd incorporated in mesoporous silica for solvent-free selective hydrogenation of chloronitrobenzenes Chemical Engineering Journal, volume 325, issue, pp. 124 – 133, 2017 Линк
283. Mihaylov, Tz., Trendafilova, N., Kostova, I., Georgieva, I., Bauer, G.. DFT modeling and spectroscopic study of metal-ligand bonding in La(III) complex of coumarin-3-carboxylic acid. Chemical Physics, 327, 2-3, Elsevier, 2006, ISSN:0301-0104, 209-219. ISI IF:1.652
Цитира се в:
997. Ionescu, E., Li, W., Wiehl, L., Mera G. and Riedel, R., Synthesis of Nanocrystalline Gd2O2NCN from a Versatile Single-source Precursor, (2017) Zeitschrift für anorganische und allgemeine Chemie, Vol. 643, (21), pp. 1681–1691., 2017 Линк
998. Dağlı, Ö., Köse, D. A., Şahin, O., Şahin, Z. S., The synthesis and structural characterization of transition metal coordination complexes of coumarilic acid, Journal of Thermal Analysis and Calorimetry, (2017) Vol.128, (3), pp 1373–1383., 2017 Линк
999. Dağlı, Ö., Köse, D.A., Avcı, G.A. and Şahin, O., Novel mixed-ligand complexes of coumarilate/N, N′-diethylnicotinamide with some transition metals (2017) Journal of Thermal Analysis and Calorimetry, 129(3):1389-1402., 2017 Линк
284. Gentscheva, G., Tzvetkova, P., Vassileva, P., Lakov, L., Peshev, O, Ivanova, E.. Analytical characterization of a silica gel sorbent with thioetheric sites. Microchimica Acta, 156, 3, 2006, 303-306. ISI IF:3.741
Цитира се в:
1000. Sharma, S., Kumar, A. S. K., & Rajesh, N. (2017). A perspective on diverse adsorbent materials to recover precious palladium and the way forward. RSC Advances, 7(82), pp. 52133-52142., 2017
1001. Kumar N. S., V. Dharmendra, V. Sreenivasulu, M. Asif, A. A. Ibrahim, V. Balaram, (2017) "Separation and Pre-Concentration of Pb and Cd in Water Samples Using 3-(2-hydroxyphenyl)-1H-1, 2, 4-triazole-5(4H)-thione (HTT) and Their Determination by Inductively Coupled Plasma Atomic Emission Spectrometry (ICP-AES)", Metals, 7(7), 240., 2017
285. T. Venkov, K. Fajerwerg, L. Delannoy, Hr. Klimev, Hadjiivanov , K., C. Louis. Effect of the Activation Temperature on the State of Gold Supported on Titania: an FTIR Spectroscopic Study. Applied Catalysis A: General, 301, 2006, DOI:10.1016/j.apcata.2005.11.019, 106-114. ISI IF:3.942
Цитира се в:
1002. T. Tran-Thuy, Influences of moisture on room temperature co oxidation over Au/BN catalysts, Ph. D. Thesis, National Taiwan University of Science and Technology, Taipei, Taiwan, 2017 [GS]., 2017
1003. D. Demir, Carbon Monoxide Adsorbtion and Carbon Monoxide Oxidation Studies on Thiolate Supported Gold Nanoclusters Dispensed on Metallic Oxides, Ph. D. Thesis, Technischen Universität Wien, Wien, Austria, 2017 [GS]., 2017
1004. R. Atwi, A. Tuel, M. Maffre, L. Burel and F.C. Meunier, Proc. Gold 2018 Conf., July 15-18, Paris, France, presentation S1O4 [Google]., 2017
1005. M. Compagnoni, Catalytic and photocatalytic processes for the production of alternative fuels and chemicals from renewable sources, Ph. D. Thesis, Università degli Studi di Milano, Milano, Italy, 2017 [Google]., 2017
page 95/232
1006. G. Kučerová, J. Strunk, M. Muhler and R.J. Behm, Effect of titania surface modification of mesoporous silica SBA-15 supported Au catalysts: Activity and stability in the CO oxidation reaction, J. Catal., 356 (2017) 214-228, 2017 Линк
1007. T. Tran-Thuy, C. Chen and S.D. Lin, Spectroscopic Studies of How Moisture Enhances CO Oxidation over Au/BN at Ambient Temperature, ACS Catal., 7 (2017) 4304-4312, 2017 Линк
1008. H. Yu, J. Guo, F. Dong, B. Zhu, W. Huang and S. Zhang, A comparative study of CO catalytic oxidation on Au/YPO4-prisms and Au/YPO4-rods, J. Nanopart. Res., 19 (2017) 204, 2017 Линк
286. T. Venkov, Hr. Klimev, M.A. Centeno, J.A. Odriozola, Hadjiivanov , K.. State of Gold on an Au/Al2O3 Catalyst Subjected to Different Pre-treatments: an FTIR Study. Catalysis Communications, 7, 2006, DOI:doi:10.1016/j.catcom.2005.11.018, 308-313. ISI IF:3.699
Цитира се в:
1009. T. Tran-Thuy, Influences of moisture on room temperature co oxidation over Au/BN catalysts, Ph. D. Thesis, National Taiwan University of Science and Technology, Taipei, Taiwan, 2017 [GS]., 2017
1010. J. Wang, Z. Hu, Y. Miao and W. Li, in Metal Materials and Engineering (H. Currant, Ed.), English Press, New York, USA, 2017, p. 98 [GB]., 2017
1011. Y. Miao, L. Shi, L. Cai and W. Li, in Metal Materials and Engineering (H. Currant, Ed.), English Press, New York, USA, 2017, p. 144 [GB]., 2017
1012. T. Tran-Thuy, C. Chen and S.D. Lin, Spectroscopic Studies of How Moisture Enhances CO Oxidation over Au/BN at Ambient Temperature, ACS Catal., 7 (2017) 4304-4312 [ISI]., 2017 Линк
1013. W. Huang, G. Sun and T. Cao, Surface chemistry of group IB metals and related oxides, Chem. Soc. Rev., 46 (2017) 1977-2000, 2017 Линк
287. T. Venkov, M. Dimitrov, Hadjiivanov , K.. FTIR Spectroscopic Study of the Nature and Reactivity of NOx Compounds Formed on Cu/Al2O3 after Coadsorption of NO and O2. J. Mol. Catal., A, 243, 2006, DOI:doi:10.1016/j.molcata.2005.08.018, 8-16. ISI IF:3.615
Цитира се в:
1014. K. Singh, R. Kumar and A. Chowdhury, Synergistic effects of ultrasonication and ethanol washing in controlling the stoichiometry, phase-purity and morphology of rare-earth doped ceria nanoparticles, Ultrason. Sonochem., 36(2017) 182–190, 2017 Линк
1015. X Chen, P Wang, P Fang, H Wang, C Cen, W. Zeng, Z. Wu , Design Strategies for SCR Catalysts with Improved N2 Selectivity: the Significance of Nano-confining Effect by Titanate Nanotubes, Environ. Sci. Nano, 4 (2017) 437 [ISI]., 2017 Линк
288. Stefanov, P., Minkovski, N., Balchev, I., Avramova, I., Sabotinov, N., Marinova, Ts.. XPS Studies of Short Pulse Laser Interaction with Copper. Applied Surface Science, 253, 3, 2006, ISSN:0169-4332, 1046-1050. SJR:0.913, ISI IF:2.711
Цитира се в:
1016. NA Dahham , " Annealing temperature effect on the Structure, Morphology and Optical properties of Copper Oxide CuO thin Films", Tikrit Journal of Pure Science, Vol 22, No 6 (2017), p.115, 2017 Линк
289. M.A. Centeno, Hadjiivanov , K., T. Venkov, Hr. Klimev, J.A. Odriozola. Comparative Study of Au/Al2O3 and Au/CeO2-Al2O3 Catalysts. J. Mol. Catal., A, 252, 2006, DOI:10.1016/j.molcata.2006.02.056, 142-149. ISI IF:3.615
page 96/232
Цитира се в:
1017. L.J. France, Q. Yang, W. Li, Z. Chen, J. Guang, D. Guo, L. Wang and X. Li, Ceria modified FeMnOx—Enhanced performance and sulphur resistance for low-temperature SCR of NOx, Appl. Catal. B, 206 (2017) 203-215, 2017 Линк
1018. D. Demir, Carbon Monoxide Adsorbtion and Carbon Monoxide Oxidation Studies on Thiolate Supported Gold Nanoclusters Dispensed on Metallic Oxides, Ph. D. Thesis, Technischen Universität Wien, Wien, Austria, 2017 [GS]., 2017
1019. G. Kučerová, J. Strunk, M. Muhler and R.J. Behm, Effect of titania surface modification of mesoporous silica SBA-15 supported Au catalysts: Activity and stability in the CO oxidation reaction, J. Catal., 356 (2017) 214-228, 2017 Линк
1020. S.A. Nikolaev, E.V. Golubina and M.I. Shilina, The effect of H2 treatment at 423–573 K on the structure and synergistic activity of Pd–Cu alloy catalysts for low-temperature CO oxidation, Appl. Catal. B, 208 (2017) 116-127, 2017 Линк
1021. A.V. Chistyakov, P.A. Zharova, S.A. Nikolaev and M.V. Tsodikov, Direct Au-Ni/Al2O3 catalysed cross-condensation of ethanol with isopropanol into pentanol-2, Catal. Today, 279 (2017) 124-132, 2017 Линк
290. Shinova, E., Zhecheva, E., Stoyanova, R.. Formation of LiAlyNi 1− yO 2 solid solutions under high and atmospheric pressure. Journal of Solid State Chemistry, 179, 10, Elsevier BV, 2006, ISSN:0022-4596, DOI:10.1016/j.jssc.2006.06.011, 3151-3158. SJR:0.748, ISI IF:2.133
Цитира се в:
1022. Xu, J., Lin, F., Doeff, M. M., & Tong, W., (2017) A review of Ni-based layered oxides for rechargeable Li-ion batteries. Journal of Materials Chemistry A, J. Mater. Chem. A, 2017, 5, 874-901., 2017 Линк
291. A. Mihaylova, Hadjiivanov , K., S. Dzwigaj, M. Che. Remarkable Effect of the Preparation Technique on the State of Cobalt Ions in BEA Zeolites Evidenced by FTIR Spectroscopy of Adsorbed CO and NO, TPR and XRD. J. Phys. Chem. B, 110, American Chemical Society, 2006, DOI:10.1021/jp0634398, 19530. ISI IF:3.302
Цитира се в:
1023. Y. Zha, in Propulsion Materials, U.S. Department of Energy, 2017, p. 71 [Google]., 2017
1024. Q. Yang, Z. Chen, D. Zhou, W. Shen and S. Naito, Effect of cobalt substitution on nanoporous nickel phosphate VSB-5 catalyst for the catalytic reduction of NO by H2, Catal. Today, 297 (2017) 64 [ISI]., 2017 Линк
292. Spasova I., Ivanov G., Georgescu V., Mehandjiev D.. Complete oxidation of Methyl- ethyl ketone and toluene over supported copper-chromium and Cobalt-chromium oxide catalysts. Journal of Chemical Technology and Metallurgy, 41, 2, 2006, ISSN:ISSN 1314-7471 (print) ISSN 1314-7978 (on line), 225-228. SJR:0.19
Цитира се в:
1025. Ahmadi, M., Haghighi, M., & Kahforoushan, D. (2017). Influence of active phase composition (Mn, Ni, Mn x Ni 10− x) on catalytic properties and performance of clinoptilolite supported nanocatalysts synthesized using ultrasound energy toward abatement of toluene from polluted air. Process Safety and Environmental Protection, 106, 294-308., 2017 Линк
293. Mihaylov, M., Ivanova, E., Thibault-Starzyk, F., Daturi, M., Dimitrov, L., Hadjiivanov, K.. New Types of Non-classical Iridium Carbonyls Formed in Ir–ZSM-5: An FTIR Spectroscopy Investigation. J. Phys. Chem. B, 110, 21, American Chemical Society, 2006, DOI:10.1021/jp057128t, 10383-10389. ISI IF:3.302
page 97/232
Цитира се в:
1026. C. Massué, V. Pfeifer, M. Van Gastel, J. Noack, G. Algara-Siller, S. Cap and R. Schlögl, Reactive Electrophilic OI− Species Evidenced in High‐Performance Iridium Oxohydroxide Water Oxidation Electrocatalysts, ChemSusChem, 10 (2017) 4786 [ISI]., 2017 Линк
294. Georgieva, I., Trendafilova, N.. Comprehensive DFT and MO studies on glyoxilic acid oxime and related ions in gas phase and solution: Conformations, basicities and acidities. Chemical Physics, 321, 3, Elsevier, 2006, 311-324. ISI IF:1.652
Цитира се в:
1027. Kucuk, I., Kaya, Y. and Kaya, A.A., Structural, spectroscopic (FT-IR, NMR, UV–visible), nonlinear optical (NLO), cytotoxic and molecular docking studies of 4-nitro-isonitrosoacetophenone (ninapH) by DFT method. (2017) Journal of Molecular Structure, 1139, pp.308-318., 2017 Линк
295. Klissurski, D., Mancheva, M., Iordanova, R., Tyuiliev, G., Kunev, B.. Mechanochemical synthesis of nanocrystalline nickel molybdates. Journal of Alloys and Compounds, 422, 1-2, Elsevier, 2006, ISSN:09258388, DOI:10.1016/j.jallcom.2005.11.073, 53-57. SJR:0.901, ISI IF:2.99
Цитира се в:
1028. Ratha, Satyajit, et al. "Urea-Assisted Room Temperature Stabilized Metastable β-NiMoO4: Experimental and Theoretical Insights into its Unique Bifunctional Activity toward Oxygen Evolution and Supercapacitor." ACS Applied Materials & Interfaces 9.11 (2017): 9640-9653., 2017 Линк
1029. Hu, Wenda, et al. "Enhanced photocatalytic activity of gC 3 N 4 via modification of NiMoO 4 nanorods." Colloids and Surfaces A: Physicochemical and Engineering Aspects 514 (2017): 98-106, 2017 Линк
1030. Zhang, Wei, et al. "Cyclic voltammetry analysis of copper electrode performance in Na 2 WO 4 solution and optical property of electrochemical synthesized CuWO 4 nanoparticles." Journal of Alloys and Compounds 690 (2017): 221-227., 2017 Линк
1031. Umapathy, V., et al. "Synthesis of NiMoO4 nanoparticles by sol–gel method and their structural, morphological, optical, magnetic and photocatlytic properties." Transactions of Nonferrous Metals Society of China 27.8 (2017): 1785-1793., 2017 Линк
1032. Emadi, Hamid, Bahareh Tamaddoni Jahromi, and Ali Nemati Kharat. "Synthesis, characterization and crystal structure of new nickel molybdenum complex with the pyridine dicarboxylic acid ligand: Novel precursors for nickel molybdate nanoparticles." Journal of Chemical Sciences 129.3 (2017): 373-380., 2017 Линк
1033. Dhanasekar, M., et al. "Efficient sono-photocatalytic degradation of methylene blue using nickel molybdate nanosheets under diffused sunlight." Journal of Environmental Chemical Engineering (2017), 5, 2997-3004, 2017 Линк
296. Nicola D. Yordanov, Slawomir Fabisiak, Oleg Lagunov. Effect of the shape and size of the dosimeters on the response of solid state/EPR dosimetry.. Radiation Measurements, 41, 3, Elsevier, 2006, DOI:dx.doi.org/10.1016/j.radmeas.2005.09.005, 257-263. SJR:0.592, ISI IF:1.195
Цитира се в:
1034. P. Szajerski, M. Jakubowska, A. Gasiorowski, J. Lumin., Dosimetric properties of europium, gadolinium and cerium borosilicate glasses in application of electron beam dose measurements, J. Lumin., 182 (2017) 300-311., 2017 Линк
297. Ivanova, E., Hadjiivanov, K., Dzwigaj, S., Che, M. FT-IR study of CO and NO adsorption on a VSiBEA zeolite. Microporous and Mesoporous Materials, 89, 1-3, Elsevier, 2006, ISSN:1387-1811,
page 98/232
DOI:10.1016/j.micromeso.2005.10.013, 69-77. ISI IF:3.453
Цитира се в:
1035. P. Alejos, R. Añez and A. Sierraalta, Catalisis, 6 (2017) 16 [Google]., 2017
298. Nedkov, I., Vandenberghe, R. E., Marinova, Ts., Tailhades, Ph., Merodiiska, T., Avramova, I.. Magnetic structure and collective Jahn-Teller distortions in nanostructured particles of CuFe2O4. Applied Surface Science, 253, 5, 2006, ISSN:0169-4332, 2589-2596. SJR:0.913, ISI IF:2.711
Цитира се в:
1036. La, D.D., Nguyen, T.A., Jones, L.A., Bhosale, S.V. Graphene-Supported spinel CuFe2O4composites: Novel adsorbents for arsenic removal in aqueous media (2017) Sensors (Switzerland), 17 (6), art. no. 1292, ., 2017 Линк
1037. Yadav, R.S., Kuřitka, I., Vilcakova, J., Havlica, J., Masilko, J., Kalina, L., Tkacz, J., Hajdúchová, M., Enev, V. Structural, dielectric, electrical and magnetic properties of CuFe2O4 nanoparticles synthesized by honey mediated sol–gel combustion method and annealing effect (2017) Journal of Materials Science: Materials in Electronics, 28 (8), pp. 6245-6261., 2017 Линк
1038. Abdellatif, M.H., Innocenti, C., Liakos, I., Scarpellini, A., Marras, S., Salerno, M. Effect of Jahn-Teller distortion on the short range magnetic order in copper ferrite (2017) Journal of Magnetism and Magnetic Materials, 424, pp. 402-409., 2017 Линк
1039. Naatz, H., Lin, S., Li, R., Jiang, W., Ji, Z., Chang, C.H., Köser, J., Thöming, J., Xia, T., Nel, A.E., Mädler, L., Pokhrel, S. Safe-by-Design CuO Nanoparticles via Fe-Doping, Cu-O Bond Length Variation, and Biological Assessment in Cells and Zebrafish Embryos (2017) ACS Nano, 11 (1), pp. 501-515., 2017 Линк
1040. Karunakaran, C., Vinayagamoorthy, P., Jayabharathi, J. CuFeO4-encapsulated ZnO nanoplates: Magnetically retrievable biocidal photocatalyst (2017) Journal of Nanoscience and Nanotechnology, 17 (7), pp. 4489-4497., 2017 Линк
1041. Yan, J., Chen, Y., Qian, L., Gao, W., Ouyang, D., Chen, M. Heterogeneously catalyzed persulfate with a CuMgFe layered double hydroxide for the degradation of ethylbenzene (2017) Journal of Hazardous Materials, 338, pp. 372-380., 2017 Линк
1042. Yang, Z., Ma, F., Zhu, Y., Chen, S., Wang, C., Lu, X. A facile synthesis of CuFe2O4/Cu9S8/PPy ternary nanotubes as peroxidase mimics for the sensitive colorimetric detection of H2O2 and dopamine (2017) Dalton Transactions, 46 (34), pp. 11171-11179., 2017 Линк
1043. Sun, B., Zhang, X., Zhou, G., Zhang, C., Li, P., Xia, Y., Zhao, Y. Effect of Cu ions assisted conductive filament on resistive switching memory behaviors in ZnFe2O4-based devices (2017) Journal of Alloys and Compounds, 694, pp. 464-470., 2017 Линк
1044. Farooq, U., Danish, M., Lu, S., Brusseau, M.L., Naqvi, M., Fu, X., Zhang, X., Sui, Q., Qiu, Z. Efficient transformation in characteristics of cations supported-reduced graphene oxide nanocomposites for the destruction of trichloroethane (2017) Applied Catalysis A: General, 544, pp. 10-20., 2017 Линк
1045. Zhang, X., Feng, M., Wang, L., Qu, R., Wang, Z. Catalytic degradation of 2-phenylbenzimidazole-5-sulfonic acid by peroxymonosulfate activated with nitrogen and sulfur co-doped CNTs-COOH loaded CuFe2O4 (2017) Chemical Engineering Journal, 307, pp. 95-104., 2017 Линк
1046. Pan, X., Yan, L., Li, C., Qu, R., Wang, Z. Degradation of UV-filter benzophenone-3 in aqueous solution using persulfate catalyzed by cobalt ferrite (2017) Chemical Engineering Journal, 326, pp. 1197-1209., 2017 Линк
1047. Nakhate, Akhil V.; Yadav, Ganapati D., Solvothermal Synthesis of CuFe2O4rGO: Efficient
page 99/232
Catalyst for C-O Cross Coupling and N-arylation Reaction under Ligand-Free Condition, (2017) CHEMISTRYSELECT Volume: 2 Issue: 24 Pages: 7150-7159, 2017
299. Zhecheva, E., Stoyanova, R., Alcantara, R., Lavela, P., Tirado, J. L.. EPR studies of Li deintercalation from LiCoMnO4 spinel-type electrode active material. Journal of Power Sources, 159, 2, 2006, ISSN:0378-7753, 1389-1394. ISI IF:6.217
Цитира се в:
1048. Windmüller, A., Tsai, C. L., Möller, S., Balski, M., Sohn, Y. J., Uhlenbruck, S., & Guillon, O. (2017). Enhancing the performance of high-voltage LiCoMnO 4 spinel electrodes by fluorination. Journal of Power Sources, 341, 122-129., 2017 Линк
1049. Dräger, C., Sigel, F., Indris, S., Mikhailova, D., Pfaffmann, L., Knapp, M., & Ehrenberg, H. (2017). Delithiation/relithiation process of LiCoMnO 4 spinel as 5 V electrode material. Journal of Power Sources, 371, 55-64., 2017 Линк
1050. Tang, M., Dalzini, A., Li, X., Feng, X., Chien, P. H., Song, L., & Hu, Y. Y. (2017). Operando EPR for Simultaneous Monitoring of Anionic and Cationic Redox Processes in Li-Rich Metal Oxide Cathodes. The journal of physical chemistry letters, 8(17), 4009-4016., 2017 Линк
1051. Mukai, K., & Uyama, T. (2017). Toward Positive Electrode Materials with High-Energy Density: Electrochemical and Structural Studies on LiCo x Mn2–x O4 with 0≤ x≤ 1. ACS Omega, 2(8), 5142-5149., 2017 Линк
300. Stoyanova, R., Zhecheva. E., Alcantara, R., Tirado, J.L.. Changes in local Ni/Mn environment in layered LiMgxNi 0.5-xMn0.5O2 (0 ≤ x ≤ 0.10) after electrochemical extraction and reinsertion of lithium. Journal of Materials Chemistry, 16, 4, 2006, ISSN:0959-9428, 359-369. ISI IF:6.626
Цитира се в:
1052. Tang, M., Dalzini, A., Li, X., Feng, X., Chien, P. H., Song, L., & Hu, Y. Y. (2017). Operando EPR for Simultaneous Monitoring of Anionic and Cationic Redox Processes in Li-Rich Metal Oxide Cathodes. The journal of physical chemistry letters, 8(17), 4009-4016., 2017 Линк
301. Idakiev, V., Tabakova, T., Naydenov, A., Yuan, Z.-Y., Su, B.-L.. Gold catalysts supported on mesoporous zirconia for low-temperature water–gas shift reaction. Applied Catalysis B: Environmental, 63, 3-4, Elsevier, 2006, DOI:10.1016/j.apcatb.2005.10.007, 178-186. ISI IF:7.44
Цитира се в:
1053. Piotr Kaminski, Maria Ziolek and Jeroen A. van Bokhoven, Mesoporous cerium–zirconium oxides modified with gold and copper – synthesis, characterization and performance in selective oxidation of glycerol, RSC Adv., 2017, 7, 7801-7819, 2017 Линк
1054. Antonio Ruiz Puigdollers, Francesc Illas, Gianfranco Pacchion, iZrO2 Nanoparticles: a density functional theory study of structure, properties and reactivity, Fis. Acc. Lincei (2017) 28(Suppl 1): 19, 2017 Линк
1055. Sureerat Jampa, Kanapos Wangkawee, SupakornTantisriyanurak, JutamasChangpradit, Alexander, M.Jamieson, Thanyalak Chaisuwan, Apanee Luengnaruemitchaiab, Sujitra Wongkasemjitab, High performance and stability of copper loading on mesoporous ceria catalyst for preferential oxidation of CO in presence of excess of hydrogen, International Journal of Hydrogen Energy, Volume 42, Issue 8, 23 February 2017, Pages 5537-5548, 2017 Линк
1056. Hongjian Zhu, Jing Xu, Yuge Yichuan, Zhongpeng Wang, Yibo Gao, Wei Liu, Henan Yin, Catalytic oxidation of soot on mesoporous ceria-based mixed oxides with cetyltrimethyl ammonium bromide (CTAB)-assisted synthesis, Journal of Colloid and Interface Science, Volume 508, 15 December 2017, Pages 1-13, 2017 Линк
1057. Magdalena Oćwiej, Adam Węgrzynowicz, Julia Maciejewska-Prończuk, Piotr Michorczyk,
page 100/232
Zbigniew Adamczyk, Maciej Roman, ElżbietaBielańskaa, Preparation of iron oxide nanoparticles doped by chromium for application in water–gas shift reaction, Colloids and Surfaces A: Physicochemical and Engineering Aspects, Volume 523, 20 June 2017, Pages 71-80, 2017 Линк
1058. A Satyanarayana Reddy, Cu containing mixed metal oxides and their applications in red-ox and acid-base catalyzed reactions, PhD Thesis, 2017, lib.unipune.ac.in, , 2017
302. Peshev, P., Peshev, S., Nikolov, V., Gravereau, P., Chaminade, J.-P., Binev, D., Ivanova, D.. Studies on some ternary oxyborates of the Na2O–Me2O3–B2O3 (Me=rare earth or aluminum) systems: Synthesis, structure and crystal growth. Journal of Solid State Chemistry, 176, 9, Academic Press Inc., 2006, ISSN:0022-4596, DOI:10.1016/j.jssc.2006.01.027, 2834-2849. SJR:0.748, ISI IF:2.133
Цитира се в:
1059. Makukha, V.K., Kidyarov, B.I. Structural and physical systematization of the nonlinear-optical borate crystals (2017) Proceedings - 2016 11th International Forum on Strategic Technology, IFOST 2016, art. no. 7884316, pp. 539-543, 2017
303. Todorov, T., Rabadjieva, D., Tepavitcharova, S.. New Thermodynamic Database for More Precise Simulation of Metal Species in Natural Water. Journal of the University of Chemical Technology and Metallurgy, 41, 2006, ISSN:1311-7629, 97-102
Цитира се в:
1060. Simeonova, Anna, Chuturkova, Rozalina, Slavcheva, Dora, Kiryakova, Sofiya , QUALITY ASSESSMENT OF THE WATER RESOURCES INTENDED FOR WATER SUPPLY OF VARNA REGION, BULGARIA. , Journal of Chemical Technology & Metallurgy., 2017, 52(3) pp. 603-612, 2017 Линк
304. Stoyanova, R., Zhecheva, R., Vassilev, S.. Mn4+ environment in layered Li[Mg0.5-xNi xMn0.5]O2 oxides monitored by EPR spectroscopy. Journal of Solid State Chemistry, 179, 2, 2006, ISSN:0022-4596, 378-388. ISI IF:2.133
Цитира се в:
1061. Мария Лазарова Калъпсъзова, „Натриеви интеркалационни оксиди като катодни материали за екологични йонни батерии”, Докторска дисертация, 2017, Българска академия на науките, София (лит. 226)., 2017
1062. Tang, M., Dalzini, A., Li, X., Feng, X., Chien, P. H., Song, L., & Hu, Y. Y. (2017). Operando EPR for Simultaneous Monitoring of Anionic and Cationic Redox Processes in Li-Rich Metal Oxide Cathodes. The journal of physical chemistry letters, 8(17), 4009-4016., 2017 Линк
305. Detcheva, A., Grobecker, K.H.. Determination of Hg, Cd, Mn, Pb and Sn in Seafood by Solid Sampling Zeeman Atomic Absorption Spectrometry. Spectrochimica Acta Part B, 61, 2006, 454-459. ISI IF:3.092
Цитира се в:
1063. Giacomino, A., Redda, A. R., Squadrone, S., Rizzi, M., Abete, M. C., La Gioia, C., Toniolo, R., Abollino, O., Malandrino, M. "Anodic stripping voltammetry with gold electrodes as an alternative method for the routine determination of mercury in fish. Comparison with spectroscopic approaches" (2017) Food Chemistry 221, pp. 737-745, 2017
1064. Orani, A. M.; Mandjukov, P.; Vassileva, E. "Determination of selected trace elements in marine biota samples with the application of fast temperature programs and solid sampling continuous source high resolution atomic absorption spectroscopy: method validation" (2017) International Journal of Environmental Analytical Chemistry, 97(8) pp. 710-729, 2017
page 101/232
306. Alcantara, R., Ortiz, G. F., Lavela, P., Tirado, J. L., Stoyanova, R., Zhecheva, E.. EPR, NMR, and electrochemical studies of surface-modified carbon microbeads. Chemistry of Materials, 18, 9, 2006, ISSN:0897-4756, 2293-2301. ISI IF:8.354
Цитира се в:
1065. Graczyk-Zajac, M., Wimmer, M., Xu, Y.; Buntkowsky, G.; Neumann, C.; Riedel, R. Lithium intercalation into disordered carbon/SiCN composite. Part 2: Raman spectroscopy and 7Li MAS NMR investigation of lithium storage sites Journal of Solid State Electrochem (2017) 21, 47–55., 2017 Линк
1066. Su, X., Dogan, F., Ilavsky, J., Maroni, V. A., Gosztola, D. J., & Lu, W. (2017). Mechanisms for lithium nucleation and dendrite growth in selected carbon allotropes. Chemistry of Materials, 29(15), 6205-6213., 2017 Линк
1067. Ahamad, S., Ahmad, M., Mehta, B. R., & Gupta, A. (2017). Effect of Nano-Fillers on Capacity Retention and Rate Capability of Mesocarbon Microbeads Anode. Journal of The Electrochemical Society, 164(13), A2967-A2976., 2017 Линк
1068. Кулова, Т. Л., & Скундин, А. М. (2017). От литий-ионных к натрий-ионным аккумуляторам. Известия Академии наук. Серия химическая, (8), 1329-1335., 2017 Линк
307. Bobet J.-L., Grigorova E., Chevalier B., Khrussanova M., Peshev P.. Hydrogenation of CeNi: hydride formation, structure and magnetic properties. Intermetallics, 14, 2, Elsevier, 2006, ISSN:09669795, DOI:10.1016/j.intermet.2005.05.006, 208-2012. SJR:1.501, ISI IF:2.541
Цитира се в:
1069. Oh, SeKwon, et al. "Fabrication of Mg-Ni-Sn alloys for fast hydrogen generation in seawater".INTERNATIONAL JOURNAL OF HYDROGEN ENERGY. Volume: 42 Issue: 12 Pages: 7761-7769, 2017, 2017 Линк
308. Mihaylov, M., J.C. Fierro-Gonzalez, H. Knözinger, B.C. Gates, Hadjiivanov , K.. Formation of Non-classical Gold Carbonyls in Zeolite NaY: Characterization by IR Spectroscopy. J. Phys. Chem. B, 110, 15, American Chemical Society, 2006, DOI:10.1021/jp057426q, 7695-7701. ISI IF:2.693
Цитира се в:
1070. L. Zhao, H. Xu, B.Jiang and Y. Huang, Photocatalysts: Synergetic Photocatalytic Nanostructures Based on Au/TiO2/Reduced Graphene Oxide for Efficient Degradation of Organic Pollutants (Part. Part. Syst. Charact. 3/2017), Part. & Part. Syst. Charact., 34 (2017) 1600323 [ISI]., 2017 Линк
1071. D. Demir, Carbon Monoxide Adsorbtion and Carbon Monoxide Oxidation Studies on Thiolate Supported Gold Nanoclusters Dispensed on Metallic Oxides, Ph. D. Thesis, Technischen Universität Wien, Wien, Austria, 2017 [GS]., 2017
2007
309. Konova, P., Arve, K., Klingstedt, F., Nikolov, P., Naydenov, A., Kumar, N., Murzin, D. Yu.. A combination of Ag/alumina and Ag modified ZSM-5 to remove NOx and CO during lean conditions. Applied Catalysis B: Environmental, 70, 1-4, Elsevier, 2007, ISSN:0926-3373, DOI:10.1016/j.apcatb.2005.10.042, 138-145. SJR:2.536, ISI IF:7.435
Цитира се в:
1072. Kolobova, E., Pestryakov, A., Mamontov, G., Kotolevich, Y., Bogdanchikova, N., Farias, M., ... & Corberan, V. C., "Low-temperature CO oxidation on Ag/ZSM-5 catalysts: Influence of Si/Al ratio and redox pretreatments on formation of silver active sites.", Fuel, 188 (2017)
page 102/232
121-131., 2017 Линк
310. Mancheva, M., Iordanova, R., Klissurski, D., Tyuliev, G., Kunev, B.. Direct mechanochemical synthesis of nanocrystalline NiWO4. Journal of Physical Chemistry C, 111, 3, American Chemical Society, 2007, ISSN:1932-7455, DOI:10.1021/jp065071k, 1101-1104. ISI IF:3.396
Цитира се в:
1073. Zhang, Wei, et al. "Cyclic voltammetry analysis of copper electrode performance in Na 2 WO 4 solution and optical property of electrochemical synthesized CuWO 4 nanoparticles." Journal of Alloys and Compounds 690 (2017): 221-227., 2017 Линк
1074. Xiu-ping, L., "Preparation of NiWO4 / g-C3 N4 and its ultra deep desulfurization properties in ionic liquid", Journal of Fuel Chemistry and Technology, 45, 2017, 1340-1348, 2017
1075. Li, Ke, DebeshDevadutta Mishra, and Guolong Tan. "Preparation and band gap tailing of ternary Zn 1− x Cd x WO 4 nanocrystals by mechanical alloying." Journal of Alloys and Compounds 722 (2017): 88-93., 2017 Линк
1076. Mohammadi, Alireza, et al. "Synthesis and characterisation of NiWO4 nanopowders via simple molten salt route." Materials Research Innovations 21.7 (2017): 407-412., 2017 Линк
1077. Anis, Shaheen Fatima, et al. "Electrospun nickel–tungsten oxide composite fibers as active electrocatalysts for hydrogen evolution reaction." Journal of Materials Science 52.12 (2017): 7269-7281., 2017
1078. Helaïli, N., et al. "Efficient photo–catalytic degradation of malachite green using nickel tungstate material as photo–catalyst." Environmental Science and Pollution Research 24.7 (2017): 6481-6491., 2017 Линк
1079. Doudin, N., et al. "Epitaxial NiWO 4 films on Ni (110): Experimental and theoretical study of surface stability." Surface Science 659 (2017): 20-30., 2017 Линк
1080. Zhai, W., et al., "Experimental Study on the Sulfidation Behavior of NiWO4 Nanoparticles", Shiyou Xuebao, Shiyou Jiagong/Acta Petrolei Sinica (Petroleum Processing Section) 33 (5) 2017, 849-857., 2017
1081. Masteri-Farahani, M., “Microemulsion-mediated synthesis, characterization and optical properties of spherical nickel tungstate nanocrystals”, J. Mater. Sci. Mater. Electronics 28 (2) (2017) 1328-1335, 2017
311. Panayotov, D., Yates, J.T, Jr.. n-Type doping of TiO2 with atomic hydrogen-observation of the production of conduction band electrons by infrared spectroscopy. Chemical Physics Letters, 436, Elsevier Science B.V., 2007, ISSN:0009-2614, DOI:http://dx.doi.org/10.1016/j.cplett.2007.01.039, 204-208. ISI IF:1.897
Цитира се в:
1082. Wang, Y.; Woll, C., "IR spectroscopic investigations of chemical and photochemical reactions on metal oxides: bridging the materials gap". Chem. Soc. Rev. 2017, 46 (7), 1875-1932; DOI: 10.1039/C6CS00914J, 2017 Линк
1083. Cornejo-Romero, J.; Solis-Garcia, A.; Vega-Diaz, S. M.; Fierro-Gonzalez, J. C., "Reverse hydrogen spillover during ethanol dehydrogenation on TiO2-supported gold catalysts". Molecular Catalysis 2017, 433 (Supplement C), 391-402; DOI: 10.1016/j.mcat.2017.02.041, 2017 Линк
1084. Litke, A.; Su, Y.; Tranca, I.; Weber, T.; Hensen, E. J. M.; Hofmann, J. P., "Role of Adsorbed Water on Charge Carrier Dynamics in Photoexcited TiO2". J. Phys. Chem. C 2017, 121 (13), 7514-7524; DOI: 10.1021/acs.jpcc.7b00472, 2017 Линк
1085. Ruiz Puigdollers, A.; Pacchioni, G., "Reducibility of ZrO2/Pt3Zr and ZrO2/Pt 2D films compared to bulk zirconia: a DFT+U study of oxygen removal and H2 adsorption".
page 103/232
Nanoscale 2017, 9 (20), 6866-6876; DOI: 10.1039/C7NR01904A, 2017 Линк
1086. Selli, D.; Fazio, G.; Di Valentin, C., "Using Density Functional Theory to Model Realistic TiO2 Nanoparticles, Their Photoactivation and Interaction with Water". Catalysts 2017, 7 (12), 357; DOI: 10.3390/catal7120357, 2017 Линк
1087. Yan, Y.; Shi, W.; Yuan, Z.; He, S.; Li, D.; Meng, Q.; Ji, H.; Chen, C.; Ma, W.; Zhao, J., "The Formation of Ti–H Species at Interface Is Lethal to the Efficiency of TiO2-Based Dye-Sensitized Devices". J. Am. Chem. Soc. 2017, 139 (5), 2083-2089; DOI: 10.1021/jacs.6b12324, 2017 Линк
1088. Bing, H.; Yun Hang, H., "Investigation on H-containing shallow trap of hydrogenated TiO 2 with in situ Fourier transform infrared diffuse reflection spectroscopy". Nanotechnology 2017, 28 (30), 304001, 2017 Линк
312. Khristova M., Ivanov B., Spassova I., Spassov T.. NO reduction with CO on copper and ceria oxides supported on alumina. Catalysis Letters, 119, 1-2, 2007, DOI:10.1007/s10562-007-9195-5, 79-86. ISI IF:2.294
Цитира се в:
1089. Bahrami, S., Niaei, A., Illán-Gomez, M. J., Tarjomannejad, A., Mousavi, S. M., & Albaladejo-Fuentes, V. (2017). Catalytic reduction of NO by CO over CeO2-MOx (0.25)(M = Mn, Fe and Cu) mixed oxides—Modeling and optimization of catalyst preparation by hybrid ANN-GA. Journal of Environmental Chemical Engineering, 5(5), 4937-4947., 2017 Линк
313. Lavela, O., Ortiz, G. F., Tirado, J. L., Zhecheva, E., Stoyanova, R., Ivanova, Sv.. High-performance transition metal mixed oxides in conversion electrodes: A combined spectroscopic and electrochemical study. Journal of Physical Chemistry C, 111, 38, 2007, ISSN:1932-7447, 14238-14246. ISI IF:4.772
Цитира се в:
1090. Carbonari, G., Maroni, F., Pasqualini, M., Tossici, R., & Nobili, F. (2017). Preparation and Electrochemical Characterization of High-Stability MnO Anodes for Li-Ion Batteries. Electrochimica Acta, Volume 247, 1 September 2017, Pages 392-399., 2017 Линк
1091. Zhang, Q., Pei, J., Chen, G., Bie, C., Chen, D., Jiao, Y., & Rao, J. (2017). Co 3 V 2 O 8 Hexagonal Pyramid with Tunable Inner Structure as High Performance Anode Materials for Lithium Ion Battery. Electrochimica Acta, 238, 227-236., 2017 Линк
314. Kostova, I., Trendafilova, N., Cinta Pinzaru, S., Kiefer, W., Momekov, G. Spectroscopic Evidence of La(III) Complex of Coumarin-3-Carboxylic Acid with Cytotoxic Activity. Journal of Optoelectronics and Adv. Materials, 9, 3, 2007, ISSN:ISSN (printed) 1454-4164; ISSN (electronic) 1841-7132, 532-538. ISI IF:0.429
Цитира се в:
1092. Díaz, J. E. D., Síntesis y caracterizacion de complejos de cinc(II) con ligandos derivados de la cumarina-3-ácido carboxílico de interés como metalofármacos alternativos en el tratamiento del cánc, Theses (Magíster en Química), Pontificia Universidad Catolica del Perú, 2017 Линк
315. Klimev, Hr., Fajerwerg. K., Chakarova, K., Delannoy, L., Louis, K., Hadjiivanov, K.. Oxidation of gold metal particles supported on TiO2: an FTIR study by means of low-temperature CO adsorption. Journal of Material Science, 42, 2007, DOI:10.1007/s10853-006-0777-1, 3299-3306. ISI IF:1.081
Цитира се в:
1093. Z. Konuspayeva, G. D. Berhault, P. Afanasiev, T. Nguyen, S. Giorgio, L. Piccolo, "Monitoring in situ the colloidal synthesis of AuRh/TiO2 selective-hydrogenation nanocatalysts", Journal of Materials Chemistry A, 5 (2017) 17360-17367., 2017 Линк
page 104/232
316. Panayotov, D., Yates, J.T., Jr.. Spectroscopic Detection of Hydrogen Atom Spillover from Au Nanoparticles Supported on TiO2: Use of Conduction Band Electrons. Journal of Physical Chemistry C, 111, American Chemical Society, 2007, ISSN:1932-7447, 2959-2964. ISI IF:4.772
Цитира се в:
1094. Li, M.; Hao, Y.; Cárdenas-Lizana, F.; Keane, M. A., "Gold promoted imine production by selective gas phase reductive coupling of nitrobenzene and benzaldehyde". Applied Catalysis A: General 2017, 531 (Supplement C), 52-59, 2017 Линк
1095. Bing, H.; Yun Hang, H., "Investigation on H-containing shallow trap of hydrogenated TiO 2 with in situ Fourier transform infrared diffuse reflection spectroscopy". Nanotechnology 2017, 28 (30), 304001, 2017 Линк
1096. Xue, X.; Liu, J.; Rao, D.; Xu, S.; Bing, W.; Wang, B.; He, S.; Wei, M., "Double-active site synergistic catalysis in Ru-TiO2 toward benzene hydrogenation to cyclohexene with largely enhanced selectivity". Catalysis Science & Technology 2017, 7 (3), 650-657, 2017 Линк
1097. Abelard, J. E. R., "Temperature Programmed Desorption and Infrared Spectroscopic Studies of Interfacial Hydrogen Bonds for Small Molecules Adsorbed on Silica and Within Metal Organic Frameworks", Virginia Polytechnic Institute and State University, Doctoral Dissertations, 2017, 2017 Линк
1098. Zyoud, A.; Jondi, W.; AlDaqqah, N.; Asaad, S.; Qamhieh, N.; Hajamohideen, A.; Helal, M. H. S.; Kwon, H.; Hilal, H. S., "Self-sensitization of tetracycline degradation with simulated solar light catalyzed by ZnOmontmorillonite". Solid State Sciences 2017, 74 (Supplement C), 131-143, 2017 Линк
1099. Mao, J.; Zhou, J.; Xia, Z.; Wang, Z.; Xu, Z.; Xu, W.; Yan, P.; Liu, K.; Guo, X.; Zhang, Z. C., Anatase TiO2 Activated by Gold Nanoparticles for Selective Hydrodeoxygenation of Guaiacol to Phenolics. ACS Catalysis 2017, 7 (1), 695-705, 2017 Линк
1100. Karim, W.; Spreafico, C.; Kleibert, A.; Gobrecht, J.; VandeVondele, J.; Ekinci, Y.; van Bokhoven, J. A., "Catalyst support effects on hydrogen spillover". Nature 2017, 541, 68, 2017 Линк
1101. Spreafico, C.; Karim, W.; Ekinci, Y.; van Bokhoven, J. A.; VandeVondele, J., "Hydrogen Adsorption on Nanosized Platinum and Dynamics of Spillover onto Alumina and Titania". The Journal of Physical Chemistry C 2017, 121 (33), 17862-17872, 2017 Линк
1102. Wood, T., "Investigating Metal Oxide Nanoparticles as Photocatalysts for Carbon Dioxide Reduction Reactions", Chemical Engineering and Applied Chemistry, University of Toronto, Doctorate of Philosophy, 2017, 2017 Линк
1103. Wang, Q.; Puntambekar, A.; Chakrapani, V., "Gaseous Reactions in Adsorbed Water Present on Transition Metal Oxides". The Journal of Physical Chemistry C 2017, 121 (24), 13151-13163, 2017 Линк
1104. Cornejo-Romero, J.; Solis-Garcia, A.; Vega-Diaz, S. M.; Fierro-Gonzalez, J. C., "Reverse hydrogen spillover during ethanol dehydrogenation on TiO2-supported gold catalysts". Molecular Catalysis 2017, 433 (Supplement C), 391-402, 2017 Линк
1105. Nakagawa, Y.; Tazawa, S.; Wang, T.; Tamura, M.; Hiyoshi, N.; Okumura, K.; Tomishige, K., "Mechanistic Study of Hydrogen-Driven Deoxydehydration over Ceria-Supported Rhenium Catalyst Promoted by Au Nanoparticles". ACS Catalysis 2017, 584-595, 2017 Линк
1106. Sridhar, M.; Ferri, D.; van Bokhoven, J. A.; Kröcher, O., "Water-assisted oxygen activation during gold-catalyzed formic acid decomposition under SCR-relevant conditions". Journal of Catalysis 2017, 349 (Supplement C), 197-207., 2017 Линк
1107. Lee, J.-Y.; Shin, S. J.; Lee, J. G.; Yun, J.; Oh, M.-A.; Chung, T. D., "Direct Electrodeposition of Thin Metal Films on Functionalized Dielectric Layer and Hydrogen Gas Sensor". Journal of The Electrochemical Society 2017, 164 (2), D1-D5, 2017 Линк
page 105/232
1108. Steinhauer, S.; Zhao, J.; Singh, V.; Pavloudis, T.; Kioseoglou, J.; Nordlund, K.; Djurabekova, F.; Grammatikopoulos, P.; Sowwan, M., "Thermal Oxidation of Size-Selected Pd Nanoparticles Supported on CuO Nanowires: The Role of the CuO–Pd Interface". Chemistry of Materials 2017, 29 (14), 6153-6160, 2017 Линк
317. Kumar, N., Konova, P., Naydenov, A., Salmi, T, Murzin, D. Yu., Heikillä, T., Lehto, V.-P.. Ag-Modified H-Beta, H-MCM-41 and SiO2: Influence of Support, Acidity and Ag Content in Ozone Decomposition at Ambient Temperature. Catalysis Today, 119, 1-4, Elsevier, 2007, DOI:10.1016/j.cattod.2006.08.048, 342-346. SJR:1.595, ISI IF:3.893
Цитира се в:
1109. Wu, Y., Li, C., Bai, J., & Wang, , J. The fabrication of porous 4A-zeolite-supported Ag nanoparticles catalysts and its catalytic activity for styrene epoxidation, Results in Physics, 7, 2017, 1616-1622. https://doi.org/10.1016/j.rinp.2017.04.0352017., 2017
1110. Mohamed, E. F., Awad, G., Zaitan, H., Andriantsiferana, C., & Manero, M. H., Transition metals incorporated zeolites as environmental catalysts for indoor air ozone decomposition, Environmental Technology, 1-25, (2017). https://doi.org/10.1080/09593330.2017.1315457, 2017
1111. Gopi, T., Swetha, G., Shekar, S. C., Ramakrishna, C., Saini, B., Krishna, R., & Rao, P. V. L., Catalytic decomposition of ozone on nanostructured potassium and proton containing δ-MnO2 catalysts, Catalysis Communications, Volume 92, 2017, 51-55. https://doi.org/10.1016/j.catcom.2017.01.002., 2017
318. Ivanova, E., Mihaylov, M., Aleksandrov, H., Daturi, M., Thibault-Starzyk, F., Vayssilov, G., Rösch, N., Hadjiivanov, K.. Unusual Carbonyl-Nitrosyl Complexes of Rh2+ in Rh–ZSM-5: A Combined FTIR Spectroscopy and Computational Study. J. Phys. Chem., C, 111, 28, American Chemical Society, 2007, DOI:10.1021/jp067531f, 10412-10418. ISI IF:4.835
Цитира се в:
1112. E.M. Jiménez Barrera, Utilizacion de la espectroscopía infrarroja para el estudio de catalizadores heterogéneos, Ph. D. Thesis, Universidad de Sevilla, Sevilla, Spain. 2017 [GB]., 2017
319. Ivanova, S., Zhecheva, E., Stoyanova, R.. Microstructure of LaCoO3 prepared by freeze-drying of metal–citrate precursors revealed by EPR. Journal of Physics and Chemistry of Solids, 68, 2, Pergamon, 2007, ISSN:0022-3697, 168-174. SJR:0.605, ISI IF:1.849
Цитира се в:
1113. J. Oviedo, C. Caballero and L. C. Sánchez, Synthesis and characterization of La0.95Ce0.05CoO3 at different calcination temperatures, 5th Colombian Conference of Engineering Physics (V CNIF) IOP Publishing, IOP Conf. Series: Journal of Physics: Conf. Series 850, (2017) 012020, doi :10.1088/1742-6596/850/1/012020, 2017 Линк
320. Aurbach, D., Markovsky, B., Salitra, G., Markevich, E., Talyossef, Y., Koltypin, M., Nazar, L., Ellis, B., Kovacheva, D.. Review on electrode-electrolyte solution interactions, related to cathode materials for Li-ion batteries. Journal of Power Sources, 165, 2, 2007, ISSN:0378-7753, DOI:10.1016/j.jpowsour.2006.10.025, 491-499. ISI IF:6.217
Цитира се в:
1114. Li, Wangda, et al. "Dynamic behaviour of interphases and its implication on high-energy-density cathode materials in lithium-ion batteries." Nature Communications 8 (2017) 14589., 2017 Линк
1115. Sunstrom, Joseph, and Ron E. Hendershot. Daikin Advanced Lithium Ion Battery Technology–High Voltage Electrolyte-REVISED. No. DOE-DAI-0006437-R. Daikin America,
page 106/232
Inc., 2017., 2017 Линк
1116. Li, Shiyou, et al. "One-step solid-state synthesis of nanosized LiMn2O4 cathode material with power properties." Ionics (2017): 1-6., 2017 Линк
1117. Papović, S., et al. "Physicochemical and electrochemical characterisation of imidazolium based IL+ GBL mixtures as electrolytes for lithium-ion batteries." Physical Chemistry Chemical Physics 19.41 (2017): 28139-28152., 2017 Линк
1118. Anseán, D., et al. "Operando lithium plating quantification and early detection of a commercial LiFePO 4 cell cycled under dynamic driving schedule." Journal of Power Sources 356 (2017): 36-46., 2017 Линк
1119. WANG, Jiang-feng, et al. "Effects of Na+ doping on crystalline structure and electrochemical performances of LiNi0. 5Mn1. 5O4 cathode material." Transactions of Nonferrous Metals Society of China 27.10 (2017): 2239-2248., 2017 Линк
1120. Kleiner, Karin, and Helmut Ehrenberg. "Challenges Considering the Degradation of Cell Components in Commercial Lithium-Ion Cells: A Review and Evaluation of Present Systems." Topics in Current Chemistry 375.3 (2017): 54., 2017 Линк
1121. Tang, Li. Optimal energy management strategy for hybrid electric vehicles with consideration of battery life. Diss. The Ohio State University, 2017., 2017 Линк
1122. Radin, Maxwell D., et al. "Narrowing the Gap between Theoretical and Practical Capacities in Li‐Ion Layered Oxide Cathode Materials." Advanced Energy Materials (2017)., 2017 Линк
1123. Li, Nian‐Wu, et al. "Methods for the Stabilization of Nanostructured Electrode Materials for Advanced Rechargeable Batteries." Small Methods (2017) 1, 1700094., 2017 Линк
1124. Li, Wangda, Bohang Song, and Arumugam Manthiram. "High-voltage positive electrode materials for lithium-ion batteries." Chemical Society Reviews 2017, 46, 3006-3059 ., 2017 Линк
1125. Giordano, Livia, et al. "Chemical Reactivity Descriptor for the Oxide-Electrolyte Interface in Li-Ion Batteries." The Journal of Physical Chemistry Letters 8.16 (2017): 3881-3887., 2017 Линк
1126. Suthanthiraraj, S. Austin, and M. Johnsi. "Nanocomposite polymer electrolytes." Ionics 23.10 (2017): 2531-2542., 2017 Линк
1127. Li, Wangda, et al. "Formation and Inhibition of Metallic Lithium Microstructures in Lithium Batteries Driven by Chemical Crossover." ACS nano 2017, 11 (6), pp 5853–5863., 2017 Линк
1128. Zou, Guodong, et al. "Heterogeneous Ti3SiC2 C-Containing Na2Ti7O15 Architecture for High-Performance Sodium Storage at Elevated Temperatures." ACS nano (2017): pp 12219–12229., 2017 Линк
1129. Heins, Tom Patrick, Nicolas Schlüter, and Uwe Schröder. "Electrode‐resolved monitoring of the ageing of large‐scale lithium‐ion cells by electrochemical impedance spectroscopy." ChemElectroChem. 2017, 4, 2921–2927., 2017 Линк
1130. Çapraz, Ömer Özgür, et al. "Electrochemical Stiffness Changes in Lithium Manganese Oxide Electrodes." Advanced Energy Materials 7 (2017) 1601778., 2017 Линк
1131. Huang Xiaoshu, Characterization of negative electrodes prepared from fabric-shaped current collector. Diss. Seoul National University Graduate School, 2017., 2017 Линк
1132. Li, Dongjiang. "Aging mechanisms of Li-ion batteries : seen from an experimental and simulation point of view Eindhoven: Technische Universiteit Eindhoven, 2017 Линк
1133. Shi, Pei, et al. "A Safe Electrolyte Based on Propylene Carbonate and Non-Flammable Hydrofluoroether for High-Performance Lithium Ion Batteries." Journal of The Electrochemical Society 164.9 (2017): A1991-A1999., 2017 Линк
page 107/232
1134. Nara, Hiroki, et al. "Impedance Analysis of LiNi 1/3 Mn 1/3 Co 1/3 O 2 Cathodes with Different Secondary-particle Size Distribution in Lithium-ion Battery." Electrochimica Acta 241 (2017): 323-330., 2017 Линк
1135. Liu, Kun-Lin. "Block copolymerization of polymer electrolytes for ion-conducting membranes in electrochemical cells." Materials Science and Engineering Institute, National Taiwan University (2017): 1-199., 2017 Линк
1136. Deijun Xiong "SURPRISING CHEMISTRY IN LI-ION CELLS." PhD Thesis (2017)., 2017 Линк
1137. Rodrigues, Marco-Tulio F., et al. "A materials perspective on Li-ion batteries at extreme temperatures." Nature Energy 2.8 (2017): nenergy2017108., 2017 Линк
1138. Liu, Dequan, et al. "Group IVA Element (Si, Ge, Sn)‐Based Alloying/Dealloying Anodes as Negative Electrodes for Full‐Cell Lithium‐Ion Batteries." Small 2017, 13, 1702000., 2017 Линк
1139. Verrelli, R., et al. "On the viability of Mg extraction in MgMoN 2: a combined experimental and theoretical approach." Physical Chemistry Chemical Physics 19.38 (2017): 26435-26441., 2017 Линк
1140. Kalaga, Kaushik, et al. "Auger Electrons as Probes for Composite Micro-and Nanostructured Materials: Application to Solid Electrolyte Interphases in Graphite and Silicon-Graphite Electrodes." The Journal of Physical Chemistry C 121.42 (2017): 23333-23346., 2017 Линк
1141. Ulissi, Ulderico, et al. "Low‐polarization lithium oxygen battery using N, N‐diethyl‐N‐(2‐methoxyethyl)‐N‐methylammonium bis (trifluoromethanesulphonyl) imide (DEMETFSI) ionic liquid electrolyte." ChemSusChem (2017): 229–236., 2017 Линк
1142. Minato, Taketoshi, and Takeshi Abe. "Surface and interface sciences of Li-ion batteries:-Research progress in electrode–electrolyte interface." Progress in Surface Science (2017) 240-280., 2017 Линк
1143. Manthiram, Arumugam, Bohang Song, and Wangda Li. "A perspective on nickel-rich layered oxide cathodes for lithium-ion batteries." Energy Storage Materials 6 (2017): 125-139., 2017 Линк
1144. Faenza, Nicholas, et al. "Electrolyte Induced Surface Transformation and Transition Metal Dissolution of Fully Delithiated LiNi0. 8Co0. 15Al0. 05O2." Langmuir (2017) 33 (37), pp 9333–9353., 2017 Линк
1145. He, Meinan, et al. "High Voltage LiNi0. 5Mn0. 3Co0. 2O2/Graphite Cell Cycled at 4.6 V with a FEC/HFDEC‐Based Electrolyte." Advanced Energy Materials (2017) 7, 1700109., 2017 Линк
1146. Kang, Yoon-Sok, et al. "Tetrathiafulvalene as a conductive film-making additive on high-voltage cathode." ACS applied materials & interfaces 9.4 (2017): 3590-3595., 2017 Линк
1147. Zhan, Chun, et al. "Dissolution, Migration, and Deposition of Transition Metal Ions in Li-ion Batteries Exampled by Mn-based cathodes-a Critical Review." Energy & Environmental Science (2017)., 2017 Линк
1148. Wotango, Aselefech Sorsa, et al. "Improved Interfacial Properties of MCMB Electrode by 1-(Trimethylsilyl) imidazole as New Electrolyte Additive To Suppress LiPF6 Decomposition." ACS applied materials & interfaces 9.3 (2017): 2410-2420., 2017 Линк
1149. Tang, Ching-Yen, et al. "Insights into Solid-Electrolyte Interphase Induced Li-Ion Degradation from in Situ Auger Electron Spectroscopy." The journal of physical chemistry letters 8 (2017): 6226-6230., 2017 Линк
1150. Cho, Eunseog, Seung-Woo Seo, and Kyoungmin Min. "Theoretical Prediction of Surface Stability and Morphology of LiNiO2 Cathode for Li Ion Batteries." ACS Applied Materials & Interfaces 9.38 (2017): 33257-33266., 2017 Линк
page 108/232
1151. Stich, Michael, Nisrit Pandey, and Andreas Bund. "Drying and moisture resorption behaviour of various electrode materials and separators for lithium-ion batteries." Journal of Power Sources 364 (2017): 84-91., 2017 Линк
1152. Luo, Wei, et al. "Highly Conductive, Light Weight, Robust, Corrosion‐Resistant, Scalable, All‐Fiber Based Current Collectors for Aqueous Acidic Batteries." Advanced Energy Materials (2017)., 2017 Линк
1153. Sarkar, Susmita, et al. "Unveiling the Role of CeO2 Atomic Layer Deposition Coatings on LiMn2O4 Cathode Materials: An Experimental and Theoretical Study." ACS Applied Materials & Interfaces 9.36 (2017): 30599-30607., 2017 Линк
1154. Kindermann, Frank M., et al. "A SEI Modeling Approach Distinguishing between Capacity and Power Fade." Journal of The Electrochemical Society 164.12 (2017): E287-E294., 2017 Линк
1155. Asakura, Ryo, Petr Novák, and Rosa Robert. "Colloidal Synthesis and Electrochemistry of Surface Coated Nano-LiNi0. 80Co0. 15Al0. 05O2." Journal of The Electrochemical Society 164.12 (2017): A2617-A2624., 2017 Линк
1156. Claudia, Birkenmaier. "Dissertation Birkenmaier.", 2017 Линк
1157. Hausbrand, René, et al. "Surface and bulk properties of Li-ion electrodes–A surface science approach." Journal of Electron Spectroscopy and Related Phenomena 221 (2017) 65-78., 2017 Линк
1158. Wang, Hongqiang, et al. "A New Strategy to Stabilize Capacity and Insight into the Interface Behavior in Electrochemical Reaction of LiNi0. 5Mn1. 5O4/Graphite System for High-Voltage Lithium-Ion Batteries." ACS applied materials & interfaces 9.38 (2017): 33274-33287., 2017 Линк
1159. Chen, Zhen, et al. "Recent progress in surface coating of layered LiNi x Co y Mn z O 2 for lithium-ion batteries." Materials Research Bulletin 96 (4) (2017) 491-502., 2017 Линк
1160. Sheng, Suojiang, et al. "Al 2 O 3-surface modification of LiCoO 2 cathode with improved cyclic performance." Journal of Electroanalytical Chemistry 795 (2017): 59-67., 2017 Линк
1161. Wu, Zhi, et al. "Deep Eutectic Solvent Synthesis of LiMnPO4/C Nanorods as a Cathode Material for Lithium Ion Batteries." Materials 10.2 (2017): 134., 2017 Линк
1162. Ludwig, Jennifer, et al. "Particle size-controllable microwave-assisted solvothermal synthesis of the high-voltage cathode material LiCoPO 4 using water/ethylene glycol solvent blends." Solid State Sciences 65 (2017): 100-109., 2017 Линк
1163. Elia, Giuseppe Antonio, and Jusef Hassoun. "A SiOx‐based anode in a high‐voltage lithium‐ion battery." ChemElectroChem. 2017, 4, 2164-2168, 2017 Линк
1164. Kebede, Mesfin A., et al. "High-Voltage LiNi0. 5Mn1. 5O4-δ Spinel Material Synthesized by Microwave-Assisted Thermo-Polymerization: Some Insights into the Microwave-Enhancing Physico-Chemistry." Journal of The Electrochemical Society 164.13 (2017): A3259-A3265., 2017 Линк
1165. Fingerle, Mathias, et al. "Adsorption of ethylene carbonate on lithium cobalt oxide thin films: A synchrotron-based spectroscopic study of the surface chemistry." Chemical Physics 498 (2017): 19-24., 2017 Линк
1166. Kim, Dae-wook, Nobuyuki Zettsu, and Katsuya Teshima. "Three-dimensional electric micro-grid networks for high-energy-density lithium-ion battery cathodes." Journal of Materials Chemistry A 5.43 (2017): 22797-22804., 2017 Линк
1167. Song, Qing-Shan, et al. "Understanding the thermal stability and bonding characteristic of LixNi0. 5Mn1. 5O4 as cathode materials for lithium-ion battery from first principles." Ionics 23.3 (2017): 559-565., 2017 Линк
1168. HyukSon, In, Kwangjin Park, and Jong Hwan Park. "Improvement in high-voltage and high
page 109/232
rate cycling performance of nickel-rich layered cathode materials via facile chemical vapor deposition with methane." Electrochimica Acta 230 (2017): 308-315., 2017 Линк
1169. Jang, Seol Heui, and Taeeun Yim. "Effect of Silyl Ether‐functinoalized Dimethoxydimethylsilane on Electrochemical Performance of a Ni‐rich NCM Cathode." ChemPhysChem (2017) 18, 3402-3406., 2017 Линк
1170. Wang, Qingqing, et al. "Structure and electrochemical performance of cobalt oxide layer coated on LiNi 0.03 Mn 1.97 O 4 cathode materials." Journal of Alloys and Compounds 693 (2017): 474-481., 2017 Линк
1171. Le, Anh V., et al. "Effects of macromolecular configuration of thermally sensitive binder in lithium‐ion battery." Journal of Applied Polymer Science (2017) 134, 45078., 2017 Линк
1172. Inamoto, Jun-ichi, et al. "Investigation of the Surface State of LiCoO2 Thin-Film Electrodes Using a Redox Reaction of Ferrocene." Journal of The Electrochemical Society 164.4 (2017): A555-A559., 2017 Линк
1173. Long, Yunfei, et al. "Microwave-assisted polyol synthesis of LiMnPO 4/C and its use as a cathode material in lithium-ion batteries." Particuology 33 (2017) 42-49., 2017 Линк
1174. Darr, Jawwad A., et al. "Continuous Hydrothermal Synthesis of Inorganic Nanoparticles: Applications and Future Directions." Chemical Reviews 117.17 (2017): 11125-11238., 2017 Линк
1175. Wu, Zhi, et al. "Microwave heating synthesis of spindle-like LiMnPO 4/C in a deep eutectic solvent." Ceramics International 43.8 (2017): 6089-6095., 2017 Линк
1176. Qiao, Ruimin, and Wanli Yang. "Interactions at the electrode-electrolyte interfaces in batteries studied by quasi-in-situ soft x-ray absorption spectroscopy." Journal of Electron Spectroscopy and Related Phenomena (2017): 58-64., 2017 Линк
1177. Pereira, Nathalie, et al. "Elevated temperature performance of high voltage Li 1+ y Mn 1.5 Ni 0.5 O 4− x F x spinel in window-shifted Li-ion cells." Journal of Power Sources 338 (2017): 145-154., 2017 Линк
1178. Reddivari, Sahithya, et al. "Chemical composition and formation mechanisms in the cathode-electrolyte interface layer of lithium manganese oxide batteries from reactive force field (ReaxFF) based molecular dynamics." Frontiers in Energy 11.3 (2017): 365-373., 2017 Линк
321. Imaz, I., Pechev, S., Koseva, I., Bouree, F., Gravereau, P., Chaminade, J.-P., Peshev, P.. Structural filiation in the new complex titanates SrLiMTi4O11 (M=Cr, Fe). Acta Crystallographica Section B, 63, 2007, DOI:10.1107/S0108768106041929, 26-36. ISI IF:2.163
Цитира се в:
1179. Janka, Oliver, and Rainer Pöttgen. "Reactive Fluxes." Handbook of Solid State Chemistry (2017): 275-286., 2017 Линк
322. Koleva, V., Effenberger, H.. Crystal chemistry of M[PO2(OH)2]2•2H2O compounds (M = Mg, Mn, Fe, Co, Ni, Zn, Cd). Structural investigation of the Ni-, Zn- and Cd-salts. J. Solid State Chem., 180, Elsevier, 2007, ISSN:0022-4596, 956-967. ISI IF:2.299
Цитира се в:
1180. Singh, R., Srivastava, M., Prasad, N. K., Awasthi, S., Dhayalan, A. K., & Kannan, S. (2017). Structural analysis and magnetic induced hyperthermia of Fe 3+ and Mn 2+ substituted β-Ca 3 (PO 4) 2. New Journal of Chemistry, 41(21), 12879-12891., 2017 Линк
323. Ivanova, E., Mihaylov, M., Thibault-Starzyk, F., Daturi, M., Hadjiivanov, K.. FTIR spectroscopy study of CO and NO adsorption and Co-adsorption on Pt/TiO2. Journal of Molecular Catalysis A: Chemical, 274, 1-2, Elsevier, 2007, DOI:10.4236/mrc.2013.24019, 179-184. ISI IF:3.615
page 110/232
Цитира се в:
1181. Z. Zhang, C. Shi, Z. Bai, M. Li, B. Chen and M. Crocker, Low-temperature H2-plasma-assisted NOx storage and reduction over a combined Pt/Ba/Al and LaMnFe catalyst, Catal. Sci. Technol., 7 (2017) 145-158, 2017 Линк
1182. S. Saedy, D. Palagin, O. Safonova, J. A. van Bokhoven, A.A. Khodadadi and Y. Mortazavi, Understanding the mechanism of synthesis of Pt 3 Co intermetallic nanoparticles via preferential chemical vapor deposition, J. Mater. Chem. A, 5 (2017) 24396-24406, 2017 Линк
1183. J. Zhu, J. Wang, J. Wang, M. Dong and M. Shen, Controlling N2O formation in regeneration of NOx storage and reduction catalysts: From impact of platinum-group metal type to rational utilization, Phys. Chem. Chem. Phys., 19 (2017) 32361-32372 [ISI]., 2017 Линк
1184. P. Bhanja, X. Liu and A. Modak, Pt and Pd Nanoparticles Immobilized on Amine-Functionalized Hypercrosslinked Porous Polymer Nanotubes as Selective Hydrogenation Catalyst for α, β-Unsaturated Aldehydes, Chem. Select, 2 (2017) 7535-7543, 2017 Линк
1185. J. Zhu, M. Shen, J. Wang, X. Wang and J. Wang, N2O formation during NOx storage and reduction using C3H6 as reductant, Catal. Today, 297 (2017) 92(SI), 2017 Линк
1186. D. Degler, Spectroscopic Insights in the Gas Detection Mechanism of Tin Dioxide Based Gas Sensors, Ph. D. Thesis, Eberhard Karls Universität Tübingen, Tübingen, Germany, 2017, 2017
1187. L. DeRita, S. Dai, K. Lopez-Zepeda, N. Pham, G.W. Graham, X. Pan and P. Christopher, Catalyst Architecture for Stable Single Atom Dispersion Enables Site-Specific Spectroscopic and Reactivity Measurements of CO Adsorbed to Pt Atoms, Oxidized Pt Clusters, and Metallic Pt Clusters on TiO2, J. Am. Chem. Soc., 139 (2017) 14150-14165, 2017 Линк
1188. N.S. Kolobov, D.A. Svintsitskiy, E.A. Kozlova, D.S. Selishchev and D.V. Kozlov, UV-LED photocatalytic oxidation of carbon monoxide over TiO2 supported with noble metal nanoparticles, Chem. Eng. J., 314 (2017) 600-611, 2017 Линк
1189. X. Jin, C. Li, C. Xu, D. Guan, A. Cheruvathur, Y. Wang, J. Xu, D. Wei, H. Xiang, J.W. Niemantsverdriet, Y. Li, Q. Guo, Z. Ma, R. Su and X. Yang, Photocatalytic CC bond cleavage in ethylene glycol on TiO2: A molecular level picture and the effect of metal nanoparticles, J. Catal., 354 (2017) 37-45, 2017 Линк
1190. Y. Sui, S. Liu, T. Li, Q. Liu, T. Jiang, Y. Guo and J.-L. Luo, Atomically dispersed Pt on specific TiO2 facets for photocatalytic H2 evolution, J. Catal., 353 (2017) 250-255, 2017 Линк
324. Chakarova, K., Hadjiivanov, K., Atanasova, G., Tenchev, K.. Effect of preparation technique on the properties of platinum in NaY zeolite: a study by FTIR spectroscopy of adsorbed CO. Journal of Molecular Catalysis A: Chemical, 264, 2007, DOI:10.1016/j.molcata.2006.09.040, 270-279. ISI IF:2.707
Цитира се в:
1191. A. Westermann, B. Azambre, M. C. Bacariza, I. Graça, M. F. Ribeiro, J. M. Lopes, C. Henriques, "The promoting effect of Ce in the CO2 methanation performances on NiUSY zeolite: A FTIR In Situ/Operando study", Catal. Today, 283 (2017) 74-81 [ISI]., 2017 Линк
1192. S. Liu, J. M. Tan, A. Gulec, L. A. Crosby, T. L. Drake, N. M. Schweitzer, M. Delferro, L. D. Marks, T. J. Marks and P. C. Stair, "Stabilizing Single-Atom and Small-Domain Platinum via Combining Organometallic Chemisorption and Atomic Layer Deposition", Organometallics, 2017, 36 (4), pp 818–828, 2017 Линк
325. Georgieva, I., Trendafilova, N., Aquino, A.J.A., Lischka, H.. Excited state proton transfer in 7-hydroxy-4-methylcoumarin along a hydrogen-bonded water wire. Journal of Physical Chemistry A, 111, ACS, 2007, ISSN:ISSN 1089-5639, 127-135. ISI IF:2.952
Цитира се в:
page 111/232
1193. Morais, Sara Figueirêdo de Alcântara, Efeitos sinérgicos da cooperatividade molecular na descrição da reatividade química, Tese (doutorado)—Universidade de Brasília, Instituto de Química, Programa de Pos-Graduação em Química, 2017, , 2017 Линк
326. Georgieva, I., Trendafilova, N., Kiefer, W., Rastogi, V. K., Kostova, I.. Vibrational and theoretical study of coumarin-3-carboxylic acid binding mode in Ce(III) and Nd(III) complexes. Vibrational Spectroscopy, 44, 1, Elsevier, 2007, 78-88. ISI IF:2.003
Цитира се в:
1194. Özge Dağlı, Dursun Ali Köse Email author, Onur Şahin, Zarife Sibel Şahin, The synthesis and structural characterization of transition metal coordination complexes of coumarilic acid, Journal of Thermal Analysis Calorimetry (2017) 128(3): 1373-1383., 2017 Линк
1195. JUAN EDUARDO DIONICIO DÍAZ, SÍNTESIS Y CARACTERIZACIÓN DE COMPLEJOS DE CINC(II) CON LIGANDOS DERIVADOS DE LA CUMARINA ÁCIDO CARBOXÍLICO DE ÍNTERES COMO METALOFÁRMACOS ALTERNATIVOS EN EL TRATAMIENTO DEL CÁNCER, PUCP. Peru, 2017 Линк
1196. DIRCEU APARECIDO GONÇALVES DE SOUZA, SÍNTESE, CARACTERIZAÇÃO DE COMPLEXOS METÁLICOS CONTENDO ÁCIDO CARBOXICUMARINA AVALIAÇÃO DA ATIVIDADE ANTIOXIDANTE E ANTIMICROBIANA, UNIVERSIDADE ANHANGUERA DE SÃO PAULO, DIRETORIA DE PÓS GRADUAÇÃO STRICTO SENSU E PESQUISA MESTRADO EM BIOTECNOLOGIA E INOVAÇÃO EM SAÚDE, 2017 Линк
1197. Dağlı, Ö., Köse, D.A., Avcı, G.A. and Şahin, O., Novel mixed-ligand complexes of coumarilate/N, N′-diethylnicotinamide with some transition metals. (2017) Journal of Thermal Analysis and Calorimetry, 129(3):1389-1402., 2017 Линк
1198. Zhang, W., Ma, J., Gao, Y., Zhou, D., Chen, X., Improved electrochemical performance of Li2Fe1-xCexSiO4/C cathode material via cerium ions doping for lithium-ion batteries, Materials Chemistry and Physics, Vol. 198, 83-89, 2017, doi: 10.1016/j.matchemphys.2017.05.058., 2017 Линк
1199. Swami, K. R., Kumaresan, R., Nayak, P.K., Venkatesan, K.A., Antony, M.P., Extraction of Eu(III) in diglycolamide-organophosphorous acid and the interaction of binary solution with Eu(III) studied by FTIR spectroscopy, (2017) Vibrational Spectroscopy, Vol. 93, pp. 1-11., 2017 Линк
1200. Díaz, J. E. D., Síntesis y caracterizacion de complejos de cinc(II) con ligandos derivados de la cumarina-3-ácido carboxílico de interés como metalofármacos alternativos en el tratamiento del cánc, Theses (Magíster en Química), Pontificia Universidad Catolica del Perú (2017), 2017 Линк
327. Georgieva, I., Trendafilova, N., Aquino, A.J.A., Lischka, H.. Theoretical study of metal-ligand interaction in Sm(III), Eu(III) and Tb(III)) complexes of coumarin-3-carboxylic acid in the gas phase and solution. Inorganic Chemistry, 46, ACS, 2007, 10926-10936. ISI IF:4.762
Цитира се в:
1201. Cisse, L., Djande, A., Capo-Chichi, M., Delattre, F., Saba, A., Brochon, J.C., Sanouski, S., Tine, A. and Aaron, J.J., Fluorescence Quenching of Two Coumarin-3-carboxylic Acids by Trivalent Lanthanide Ions (2017) Journal of Fluorescence, 27(2), pp. 619-628, 2017 Линк
1202. Dağlı, Ö. Köse, D. A., Şahin, O., Şahin, Z. S., The synthesis and structural characterization of transition metal coordination complexes of coumarilic acid, Journal of Thermal Analysis and Calorimetry, 2017, Vol. 128, (3), pp 1373–1383., 2017 Линк
1203. Dağlı, Ö., Köse, D.A., Avcı, G.A. and Şahin, O., Novel mixed-ligand complexes of coumarilate/N, N′-diethylnicotinamide with some transition metals. (2017) Journal of Thermal Analysis and Calorimetry, 129(3):1389-1402., 2017 Линк
page 112/232
1204. Huang, P.W., Wang, C.Z., Chai, Z.F. and Shi, W.Q. A theoretical study on geometry, bonding nature, and stability of several anhydrous and hydrated In (III), Gd (III) and Yb (III) complexes in liquid scintillator solvents. (2017) Inorganica Chimica Acta, 463, pp.20-28., 2017 Линк
328. M. Milanova, R. Iordanova, Y.Dimitriev, K. L. Kostov. Glass formation and structure of glasses in the MoO3-CuO-Bi2O3 system. Phys. Chem. Glasses: Eur. J. Glass Sci. Technol. B, 48, Society of Glass Technology, 2007, ISSN:1753-3562, 255-258. ISI IF:0.63
Цитира се в:
1205. Klimashin, A. A., and V. V. Belousov. "Oxygen Ion Transport in Molten Oxide Membranes for Air Separation and Energy Conversion." Journal of The Electrochemical Society 164.8 (2017): H5353-H5356., 2017
1206. Belousov, Valery Vasil'evich. "Innovative oxide materials for electrochemical energy conversion and oxygen separation." Russian Chemical Reviews 86.10 (2017): 934., 2017
329. Talyosef, Y., Markovsky, B., Lavi, R., Salitra, G., Aurbach, D., Kovacheva, D., Gorova, M., Zhecheva, E., Stoyanova, R.. Comparing the behavior of nano- and microsized particles of LiMn 1.5Ni0.5O4 spinel as cathode materials for li-ion batteries. Journal of the Electrochemical Society, 154, 7, 2007, ISSN:0013-4651, DOI:10.1149/1.2736657, A682-A691. ISI IF:3.266
Цитира се в:
1207. Amin, Ruhul, and Ilias Belharouk. "Part I: Electronic and ionic transport properties of the ordered and disordered LiNi 0.5 Mn 1.5 O 4 spinel cathode." Journal of Power Sources 348 (2017): 311-317., 2017 Линк
1208. Wang, Chengyun, et al. "3, 3′-(Ethylenedioxy) dipropiononitrile as an Electrolyte Additive for 4.5 V LiNi1/3Co1/3Mn1/3O2/Graphite Cells." ACS Applied Materials & Interfaces 9.11 (2017): 9630-9639., 2017 Линк
1209. Mu, Yakui, et al. "Electrochemical Performance of LiFexNi0. 5-xMn1. 5O4 Cathode Material for Lithium-Ion Batteries." INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE 12.7 (2017): 6045-6053., 2017 Линк
330. S. Andonova, Ch. Vladov, B. Pawelec, I. Shtereva, G. Tyuliev, S. Damyanova, L. Petrov. Effect of the modified support γ-Al2O3-CaO on the structure and hydrodesulfurization activity of Mo and Ni-Mo catalysts. Applied Catalysis A: General, 328, 2007, DOI:10.1016/j.apcata.2007.06.009, 201-209. ISI IF:4.339
Цитира се в:
1210. J.-y. JING, et al., "Influence of Ca / Al molar ratio on structure and catalytic reforming
performance of Ni / CaO鄄Al2 O3 catalyst" Journal of Fuel Chemistry and Technology 45(8) (2017) 956, 2017 Линк
331. Amarilla, J.M., Rojas, R.M., Pico, F., Pascual, L., Petrov, K., Kovacheva, D., Lazarraga, M.G., Lejona, I., Rojo, J.M.. Nanosized LiMYMn2-YO4 (M = Cr, Co and Ni) spinels synthesized by a sucrose-aided combustion method. Structural characterization and electrochemical properties. Journal of Power Sources, 174, 2, 2007, ISSN:0378-7753, DOI:10.1016/j.jpowsour.2007.06.056, ISI IF:6.217
Цитира се в:
1211. He, Dingzeng, et al. "Sol-Gel Combustion Synthesis of Li1. 2Mn0. 54Ni0. 13Co0. 13O2 as Cathode Materials for Lithium Ion Batteries." INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE 12.1 (2017): 455-465., 2017 Линк
1212. Windmüller, Anna, et al. "Enhancing the performance of high-voltage LiCoMnO 4 spinel electrodes by fluorination." Journal of Power Sources 341 (2017): 122-129., 2017 Линк
page 113/232
1213. Xu, Wangqiong, et al. "Preparation and Electrochemical Performance of Nano-LiNi0. 05Mn1. 95O4 Cathode Materials by a Low-Temperature Molten-Salt Combustion Method." Int. J. Electrochem. Sci 12 (2017): 9758-9773., 2017 Линк
332. A. Penkova, S. Dzwigaj, Kefirov, R., Hadjiivanov , K., M. Che. Effect of the preparation method on the state of nickel ions in BEA zeolites. A study by fourier transform infrared spectroscopy of adsorbed CO and NO, temperature-programmed reduction, and X-Ray diffraction. J. Phys. Chem., C, 111, 2007, DOI:DOI: 10.1021/jp071927p, 8623. ISI IF:4.772
Цитира се в:
1214. C. Okolie, Catalytic Conversion of Methane into Alkanes and Oxygenates and Deactivation of Hydrodeoxygenation Catalysts, Ph. D. Thesis, Georgia Institute of Technology, Atlanta, USA, 2017 [GS]., 2017
1215. H. Liu, Q. Liu, J. Zhang, C. Yin, Y. Zhao, S. Yin, C. Liu and W. Sun, PVP-assisted synthesis of unsupported NiMo catalysts with enhanced hydrodesulfurization activity, Fuel Process. Technol., 160 (2017) 93 [ISI]., 2017 Линк
1216. L. Yan, X. Liu, J. Deng and Y. Fu, Molybdenum modified nickel phyllosilicates as a high performance bifunctional catalyst for deoxygenation of methyl palmitate to alkanes under mild conditions, Green Chem., 19 (2017) 4600 [ISI]., 2017 Линк
1217. B. Wang, D. Wang, Y. Guan, H. Xu, L. Zhang and P. Wu, Nickel/USY Catalyst Derived from a Layered Double Hydroxide/Zeolite Hybrid Structure with a High Hydrogenation Efficiency, ChemCatChem, 9 (2017) 4552 [ISI]., 2017 Линк
333. Aleksandrov, L., Iordanova, R., Dimitriev, Y.. Glass formation in the MoO3-La2O3-B2O3 system. Phys. Chem. Glasses: Eur. J. Glass Sci. Technol. B, 48, 4, 2007, 242-245. ISI IF:0.63
Цитира се в:
1218. Jae-Young, Shin, at al. "Study on the Water Durability of Molybdate Glasses with B2O3 as Low Temperature Sealing Materials". 55 (12), 904-909, 2017, 2017 Линк
1219. Jae-Young, SHIN and Bong-Ki, RYU. "Structural, thermal, and chemical properties of boronoxide-doped molybdate glass for use as a lead-free low-temperature sealing material". Journal of the Ceramic Society of Japan 125 (12) 922-925 2017, 2017 Линк
334. Stoilova, D., Baggio, R., Garland, M.T., Marinova, D.. Cation distribution in MgxZn1-x(HCOO)2.2H2O mixed crystals X-ray diffraction and double matrix infrared spectroscopy. Vibrational Spectroscopy, 43, Elsevier, 2007, ISSN:0924-2031, DOI:doi:10.1016/j.vibspec.2006.04.028, 387-394. SJR:0.491, ISI IF:2.003
Цитира се в:
1220. Krasilnikov, V. N., Zhukov, V. P., Gyrdasova, О. I., Dyachkova, Т. V., Tyutyunnik, А. P., Perevozchikova, Y. А., ... & Marchenkov, V. V. (2017). Precursor synthesis and magnetic properties of Cd1-xFexO (0≤ x≤ 0.07) polycrystalline solid solutions. Journal of Alloys and Compounds, 725, 1244-1251., 2017 Линк
335. Yovcheva, T., Avramova, I., Mekishev, G., Marinova,Ts.. Corona-charged polypropylene electrets analyzed by XPS. Journal of Electrostatics, 65, 10-11, 2007, ISSN:0304-3886, 667-671. SJR:0.562, ISI IF:1.115
Цитира се в:
1221. Wang, J., Rychkov, D., Gerhard, R. Chemical modification with orthophosphoric acid enhances surface-charge stability on polypropylene electrets (2017) Applied Physics Letters, 110 (19), art. no. 192901, ., 2017 Линк
1222. Kilic, A., Russell, S., Shim, E., Pourdeyhimi, B. The charging and stability of electret filters
page 114/232
(2017) Fibrous Filter Media, pp. 95-121., 2017 Линк
336. Georgieva, I., Trendafilova, N.. Bonding Analysеs, Formation Energies, and Vibrational Properties of M-R2dtc Complexes (M = Ag(I), Ni(II), Cu(II), Zn(II)). Journal of Physical Chemsitry A, 111, 50, American Chemical Society, 2007, ISSN:1089-5639, 13075-13087. ISI IF:2.952
Цитира се в:
1223. Sonia, A.S. and Bhaskaran, R. (2017) Tris dithiocarbamate of Co (III) complexes: Synthesis, characterization, thermal decomposition studies and experimental and theoretical studies on their crystal structures. Journal of Molecular Structure, 1134, pp.416–425., 2017 Линк
1224. Ekennia, A. C., Osowole, A. A., Olasunkanmi, L.O., Onwudiwe, D.C., Olubiyi, O.O., . Ebenso, E.E., Synthesis, characterization, DFT calculations and molecular docking studies of metal (II) complexes, Journal of Molecular Structure, Vol. 1150, 2017, pp. 279-292., 2017 Линк
1225. Ekennia, A. C., Osowole, A.A., Olasunkanmi, L.O., Onwudiwe, D.C., Ebenso, E.E., Coordination behaviours of new (bidentate N, O-chelating) Schiff bases towards copper(II) and nickel(II) metal ions: synthesis, characterization, antimicrobial, antioxidant, and DFT studies, Research on Chemical Intermediates, (2017), Vol. 43, (7) pp. 3787–3811., 2017 Линк
1226. Reznickova, A., Slepicka, P., Nguyenova, H.Y., Kolska, Z., Dendisova, M. and Svorcik, V. Copper–gold sandwich structures on PE and PET and their SERS enhancement effect. (2017) RSC Advances, 7(37), pp.23055-23064., 2017 Линк
337. Koleva V.. Vibrational behavior of the phosphate ions in dittmarite-type compounds M'M''PO4.H2O (M' = K+, NH4+; M'' = Mn2+, Co2+, Ni2+). Spectrochimica Acta Part A, 66, Elsevier, 2007, ISSN:1386-1425, 413-418. ISI IF:2.353
Цитира се в:
1227. Таня Йорданова Бояджиева, “Метални фосфати като електродни материали в алкални йонни батерии”, Докторска Дисертация, 2017, Българска академия на науките, София, лит. 188, 2017
1228. Priyadharsini, N., & Selvan, R. K. (2017). Nano-sheet-like KNiPO4 as a positive electrode material for aqueous hybrid supercapacitors. Electrochimica Acta, 246, 963-970., 2017 Линк
1229. Mácová, P., & Viani, A. (2017). Investigation of setting reaction in magnesium potassium phosphate ceramics with time resolved infrared spectroscopy. Materials Letters, 205, 62-66, 2017 Линк
338. M. Khrussanova, Ts. Mandzhukova, E. Grigorova, M. Khristov, Peshev P.. Hydriding properties of the nanocomposite 85 wt.%Mg–15 wt.% Mg2Ni0.8Co0.2 obtained by ball milling. J. Mater Sci, 42, 2007, 3338-3342. ISI IF:2.302
Цитира се в:
1230. Abareshi, Maryam, et al. "Effects of silver nanoparticles on the thermal properties of polyethylene matrix nanocomposites".JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY. Volume: 128 Issue: 2 Pages: 1117-1124, 2017, 2017 Линк
339. Zhecheva, E., Stoyanova, R., Alcántara, R., Lavela, P., Tirado, J. L.. Comparative analysis of the changes in local Ni/Mn environment in lithium–nickel–manganese oxides with layered and spinel structure during electrochemical extraction and reinsertion of lithium. Journal of Power Sources, 174, 2, Elsevier, 2007, 519-523. ISI IF:6.098
Цитира се в:
1231. Tang, M., Dalzini, A., Li, X., Feng, X., Chien, P. H., Song, L., & Hu, Y. Y. (2017). Operando EPR
page 115/232
for Simultaneous Monitoring of Anionic and Cationic Redox Processes in Li-Rich Metal Oxide Cathodes. The journal of physical chemistry letters, 8(17), 4009-4016., 2017 Линк
1232. Мария Лазарова Калъпсъзова, „Натриеви интеркалационни оксиди като катодни материали за екологични йонни батерии”, Докторска дисертация, 2017, Българска академия на науките, София (лит. 235)., 2017
340. Alcántara, R., Lavela, P., Ortiz, G. F., Tirado, J. L., Zhecheva, E., Stoyanova, R.. Lithium insertion into modified conducting domains of graphitized carbon nanotubes. Journal of the Electrochemical Society, 154, 10, The Electrochemical Society, 2007, A964-A970. ISI IF:3.266
Цитира се в:
1233. Gupta, R. D., Schwandt, C., & Fray, D. J. (2017). Molten Salt Electrolytically Produced Carbon/Tin Nanomaterial as the Anode in a Lithium Ion Battery. Metallurgical and Materials Transactions E, 4(1), 22-28., 2017 Линк
341. Spasova I., Nickolov P., Mehandjiev D.. Ozone decomposition over alumina supported copper, manganese and copper-manganese catalysts. Ozone: Science and Engineering, 29, 1, 2007, 41-45. ISI IF:0.953
Цитира се в:
1234. Mohamed, E. F., Awad, G., Zaitan, H., Andriantsiferana, C., & Manero, M. H. (2018). Transition metals-incorporated zeolites as environmental catalysts for indoor air ozone decomposition. Environmental technology, 39(7), 878-886., 2017 Линк
1235. Ma, J., Wang, C., He, H. Transition metal doped cryptomelane-type manganese oxide catalysts for ozone decomposition (2017) Applied Catalysis B: Environmental, 201, 503-510., 2017
1236. Liu, Y., Zhang, P. Catalytic decomposition of gaseous ozone over todorokite-type manganese dioxides at room temperature: Effects of cerium modification (2017) Applied Catalysis A: General, 530, 102-110., 2017
1237. Gong, S., Li, W., Xie, Z., Ma, X., Liu, H., Han, N., & Chen, Y. (2017). Low temperature decomposition of ozone by facilely synthesized cuprous oxide catalyst. New J. Chem., 2017, 41, 4828-4834, 2017 Линк
1238. Zhu, G., Zhu, J., Jiang, W., Zhang, Z., Wang, J., Zhu, Y., Zhang, Q. Surface oxygen vacancy induced α-MnO2 nanofiber for highly efficient ozone elimination, (2017) Applied Catalysis B: Environmental, 209, pp. 729-737., 2017
342. Stoilova, D., Baggio, R., Garland, M.T., Marinova, D.. Cation distribution in MgxMn1-x(HCOO)2.2H2O mixed crystals. X-ray diffraction and double matrix infrared spectroscopy. Journal of molecular structure, 842, Elsevier, 2007, ISSN:0022-2860, 67-74. SJR:0.463, ISI IF:1.78
Цитира се в:
1239. Krasilnikov, V. N., Zhukov, V. P., Gyrdasova, О. I., Dyachkova, Т. V., Tyutyunnik, А. P., Perevozchikova, Y. А., ... & Marchenkov, V. V. (2017). Precursor synthesis and magnetic properties of Cd1-xFexO (0≤ x≤ 0.07) polycrystalline solid solutions. Journal of Alloys and Compounds, 725, 1244-1251., 2017 Линк
343. Bozhkov, O., Tzvetkova, Chr., Blagoeva, T.. Plant Biosphere- Natural Extractor and Concentrator of Rhenium from Soils and Waters. Proceedings of the WSEAS International Conference on Waste Management, Water Pollution, Air Pollution, Indoor Climate, Arcachon, France, October 13-15, 2007, 2007, ISBN:978-960-6766-09-1, ISSN:1790-5095, 257-261
Цитира се в:
1240. Tabasi, S., Hassani, H. and Azadmehr, A. R. "Phytoextraction-based process of metal
page 116/232
absorption from soil in mining areas (tailing dams) by Medicago sativa L. (Alfalfa) (Case study: Sarcheshmeh porphyry copper mine, SE of Iran)". Journal of Mining & Environment. 8(3) 419-431, 2017, 2017
344. Mihaylov, M., H. Knözinger, Hadjiivanov , K., B.C. Gates. Characterization of the Oxidation States of Supported Gold Species by IR Spectroscopy of CO Probe Molecule. Chemie Ingenieur Technik, 79, 6, WILEY-VCH, 2007, ISSN:1522-2640, DOI:10.1002/cite.200700029, 795-806. ISI IF:0.658
Цитира се в:
1241. S. Najafishirtari, Nanoparticles for Technological Applications, Ph. D. Thesis, Universita’ degli Studi di Genova, Genova, Italy and Universität Regensburg, Regensburg, Germany, 2017, 2017
1242. A. M. Abdel-Mageed, G. Kucerova, J. Bansmann and R.J. Behm, Active Au Species During the Low-Temperature Water Gas Shift Reaction on Au/CeO2: A Time-Resolved Operando XAS and DRIFTS Study, ACS Catal., 7 (2017) 6471-6484, 2017 Линк
1243. L.A. Calzada, S. Collins, C.W. Han, V. Ortalan, R.Zanella, Synergetic effect of bimetallic Au-Ru/TiO2 catalysts for complete oxidation of metanol, Appl. Catal. B, 207 (2017) 79-92, 2017 Линк
1244. M. Chai, Y. Tan, G.X. Pei, L. Li, L. Zhang, X. Liu, A. Wang and T. Zhang, Crystal Plane Effect of ZnO on the Catalytic Activity of Gold Nanoparticles for the Acetylene Hydrogenation Reaction, J. Phys. Chem. C, 121 (2017) 19727-19734, 2017 Линк
1245. C.E. Stere, J.A. Anderson, S. Chansai, J.J. Delgado, A. Goguet, W.G. Graham, C. Hardacre, S.F.R. Taylor, X. Tu, Z. Wang and H. Yang, Non-Thermal Plasma Activation of Gold-Based Catalysts for Low-Temperature Water–Gas Shift Catalysis, Angew. Chem. Int. Ed., 129 (2017) 5671-5671, 2017 Линк
1246. H. Tang, Y. Su, B. Zhang, A.F. Lee, M.A. Isaacs, K. Wilson, L. Li, Y. Ren, J. Huang, M. Haruta, B. Qiao, X. Liu, C. Jin, D. Su, J. Wang and T. Zhang, Classical strong metal–support interactions between gold nanoparticles and titanium dioxide , Sci. Adv., 3 (2017) e1700231, 2017 Линк
1247. L. Wang, J. Zhang, Y. Zhu, S. Xu, C. Wang, C. Bian, X. Meng and F.-S. Xiao, Strong Metal–Support Interactions Achieved by Hydroxide-to-Oxide Support Transformation for Preparation of Sinter-Resistant Gold Nanoparticle Catalysts, ACS Catal., 7 (2017) 7461-7465, 2017 Линк
1248. Y. Wang, D. Widmann, M. Heenemann, T. Diemant, J. Biskupek, R. Schlögl and R.J. Behm, The role of electronic metal-support interactions and its temperature dependence: CO adsorption and CO oxidation on Au/TiO2 catalysts in the presence of TiO2 bulk defects, J. Catal., 354 (2017) 46-60, 2017 Линк
1249. T. Thuening, Investigation of Catalytic Oxidation and Coupling Reactions on Gold, Palladium, and Gold-Palladium Alloys, Ph. D. Thesis, University of Wisconsin, Milwaukee, USA, 2017 [GS]., 2017
1250. M. Compagnoni, Catalytic and photocatalytic processes for the production of alternative fuels and chemicals from renewable sources, Ph. D. Thesis, Università degli Studi di Milano, Milano, Italy, 2017 [Google]., 2017
1251. L. Zeng, K. Li, H. Wang, H. Yu, X. Zhu, Y. Wei, P. Ning, C. Shi and Y. Luo, CO Oxidation on Au/α-Fe2O3-Hollow Catalysts: General Synthesis and Structural Dependence, J. Phys. Chem. C, 121 (2017) 12696-12710, 2017 Линк
1252. M. Chai, X. Liu, L. Li, G. Pei, Y. Ren, Y. Su, H. Cheng, A. Wang and T. Zhang, SiO2-supported Au-Ni bimetallic catalyst for the selective hydrogenation of acetylene, Chin. J. Catal., 38 (2017) 1338 [ISI]., 2017 Линк
page 117/232
2008
345. Kostova, I., Trendafilova, N., Momekov, G. Theoretical, spectral characterization and antineoplastic activity of new lanthanide complexes. Journal of Trace Elements in Medicine and Biology, Bioinorganic Chemistry, 22, 2, Elsevier, 2008, ISSN:ISSN 0946-672X, 100-111. ISI IF:2.371
Цитира се в:
1253. Angelamaria Caporale, Giuseppe Palma, Annaluisa Mariconda, Vitale Del Vecchio, Domenico Iacopetta, Ortensia Ilaria Parisi, Maria Stefania Sinicropi, Francesco Puoci, Claudio Arra, Pasquale Longo and Carmela Saturnino, Synthesis and Antitumor Activity of New Group 3 Metallocene Complexes, Molecules 2017, 22(4), E526; doi:10.3390/molecules22040526., 2017 Линк
1254. Devi, Ch. Victory; Singh, N. Rajmuhon, Spectrophotometric study of kinetics and associated thermodynamics for the complexation of Pr(III) with L-proline in presence of Zn(II), 2017, ARABIAN JOURNAL OF CHEMISTRY, Volume: 10, Supplement: 2, pp: S2124-S2131., 2017 Линк
1255. Manini, Paola, Rare Earth Elements, Oxidative Stress, and Disease Rare Earth Elements in Human and Environmental Health: At the Crossroads Between Toxicity and Safety, Book edited by Pagano, G, Pages: 1-280; DOI: 10.1201/9781315364735, 2017 Линк
346. Detcheva, A., Grobecker, K.H.. Determination of Trace Elements in Aquatic Plants by Solid Sampling Zeeman Atomic Absorption Spectrometry (SS-ZAAS). Environmental Chemistry Letters, 6, 2008, DOI:DOI 10.1007/s10311-007-0124-z, 183-187. ISI IF:1.366
Цитира се в:
1256. Orani, A. M.; Mandjukov, P.; Vassileva, E." Determination of selected trace elements in marine biota samples with the application of fast temperature programs and solid sampling continuous source high resolution atomic absorption spectroscopy: method validation" (2017) International Journal of Environmental Analytical Chemistry, 97(8) pp. 710-729, 2017
347. Tzankov, D., Kovacheva, D., Krezhov, K., Puźniak, R., Wiśniewski, A., Sváb, E., Mikhov, M.. Magnetic properties of Bi 0.5 Sr 0.5 Fe x Mn 1− x O 3 (0⩽ x⩽ 0.7). Journal of Applied Physics, 103, 5, 2008, ISSN:0021-8979, DOI:10.1063/1.2888529, 053910-1-053910-7. ISI IF:2.068
Цитира се в:
1257. Zhang, Xingquan, et al. "Comparative study of magnetic and optical properties of Bi 0.95 La 0.05 Fe 0.8 M 0.2 O 3 (M = Cr, Co, Al) ceramics." Journal of Alloys and Compounds 701 (2017): 170-176., 2017 Линк
1258. Yadav, Kamlesh, et al. "Effect of Ti4+ doping on magnetic properties of charge ordered." 4 (2017) 076102., 2017 Линк
1259. Yadav, Kamlesh, et al. "Effect of Ti4+ doping on magnetic properties of charge ordered Bi0. 3Ca0. 7MnO3." Materials Research Express 4.7 (2017): 076102., 2017 Линк
348. Boiadjieva, T., Kovacheva, D., Lyutov, L., Monev, M.. Deposition of Zn-Cr alloy coatings from sulfate electrolyte: Effect of polypropylene glycol 620 and glycine and combinations thereof. Journal of Applied Electrochemistry, 38, 10, 2008, ISSN:0021-891X, DOI:10.1007/s10800-008-9586-3, 1435-1443. ISI IF:2.409
Цитира се в:
1260. Sok, Adeline. Électrodéposition de couches minces de phosphure de zinc pour les applications solaires photovoltaïques. Diss. École Polytechnique de Montréal, 2017., 2017
page 118/232
Линк
349. Dimitriev, Y., Ivanova, Y., Iordanova, R.. History of sol-gel science and technology (review). Journal of the University of Chemical Technology and Metallurgy, 43, 2, 2008, ISSN:1314-7978, 181-192. SJR:0.168
Цитира се в:
1261. Canosa, G., Carlos, A., "Introductory Chapter: Protection of Materials." In book: New Technologies in Protective Coatings. InTech, 2017, 2017 Линк
1262. Burgos-Tan, M. J., Y. Pérez-Padilla, A. Avila-Ortega, J. A. Barron-Zambrano, A. R. Vilchis-Néstor, C. Carrera-Figueiras, and D. Muñoz-Rodríguez. "Preparation, characterization and evaluation of a hybrid polymeric coating with sorbent properties." (2017) Chemical Papers 71, no. 7, 1205-1215, 2017 Линк
1263. Tuntas, R., Dikici, B. "An ANFIS model to prediction of corrosion resistance of coated implant materials." (2017) Neural Computing and Applications 28, no. 11, 3617-3627, 2017 Линк
1264. González-Penguelly, Brenely, et al. "New infrared-assisted method for sol-gel derived ZnO: Ag thin films: Structural and bacterial inhibition properties." Materials Science and Engineering: C 78 (2017): 833-841., 2017 Линк
1265. Chellappa, M. , Vijayalakshmi, U., " Electrophoretic deposition of silica and its composite coatings on Ti-6Al-4V, and its in vitro corrosion behaviour for biomedical applications." (2017) Materials Science and Engineering: C, 71, pp.879-890, 2017 Линк
1266. Cacciotti, I., "Bivalent cationic ions doped bioactive glasses: the influence of magnesium, zinc, strontium and copper on the physical and biological properties." (2017) Journal of Materials Science 52(15), 8812-8831, 2017 Линк
1267. Alhaji, M. H., Sanaullah, K., Khan, A., Hamza, A., Muhammad, A., Ishola, M.S., Rigit A. R. H., Bhawani. S. A, "Recent developments in immobilizing titanium dioxide on supports for degradation of organic pollutants in wastewater-A review." (2017)International Journal of Environmental Science and Technology, 14(9), 2039-2052, 2017 Линк
1268. Chen, Chien-Wen, et al. "Water repellency and warmth retention finishes for polyester fabrics based on hybrid materials comprising zirconia, silica, and thiazole dyes prepared via sol-gel synthesis." Fibers and Polymers 18.10 (2017): 1945-1955., 2017 Линк
1269. Petrolini, D. D., Urquieta-González, E. A., Pulcinelli, S. H., Santilli, C. V., & Martins, L. "Emulsion-mediated synthesis of hierarchical mesoporous-macroporous Al-Mg hydrotalcites." (2017) Microporous and Mesoporous Materials, 240, 149-158., 2017 Линк
1270. Cullen, M., Morshed, M., O’Sullivan, M., MacHugh, E., Duffy, B., & Oubaha, M. "Correlation between the structure and the anticorrosion barrier properties of hybrid sol–gel coatings: application to the protection of AA2024-T3 alloys." (2017) Journal of Sol-Gel Science and Technology, 82(3), 801-816., 2017 Линк
1271. Nadzirah, S., Hashim, U., Kashif, M. et al. , Stable electrical, morphological and optical properties of titanium dioxide nanoparticles affected by annealing temperature (2017) Microsystem Technologies , 23 (6), pp. 1743-1750., 2017 Линк
1272. Margan, P., Haghighi, M., Hydrothermal-assisted sol–gel synthesis of Cd-doped TiO2 nanophotocatalyst for removal of acid orange from wastewater, (2017) Journal of Sol-Gel Science and Technology, 81(2), pp.556-569, 2017 Линк
1273. Trease, C. H. (2017) Design and development of novel absorber coating for solar collector applications (Doctoral dissertation, Kingston University)., 2017 Линк
1274. Cruzata, O., Concina, I., & Vaillant-Roca, L. Rotary Sample Holder Design for the Optimization of the Nanostructures Seeding (2017) Revista Cubana de Física, 34(2), 140-142, 2017 Линк
page 119/232
350. Petrovic, S., Terlecki-Baricevic, A., Karanovic, L., Stefanov, P., Mitov, I.. LaMO3 (M = Mg, Ti, Fe) perovskite type oxides: Preparation, characterization and catalytic properties in methane deep oxidation. Applied Catalysis B: Environmental, 79, 2, Elsevier, 2008, ISSN:09263373, DOI:10.1016/j.apcatb.2007.10.022, 186-198. SJR:2.088, ISI IF:7.49
Цитира се в:
1275. Sasikala, C. et al., "Transition metal titanium (Ti) doped LaFeO3 nanoparticles for enhanced optical structural and magnetic properties" Journal of Alloys and CompoundsVolume 712, 2017, Pages 870-877, 2017 Линк
1276. Hessien, M.M. et al., "Structural, magnetic and sensing properties of lanthanum ferrite via facile sol gel oxalate precursor route" Journal of Materials Science: Materials in ElectronicsVolume 28, Issue 5, 1 March 2017, Pages 4170-4178, 2017 Линк
1277. Mitra, A et al., "Simultaneous enhancement of magnetic and ferroelectric properties of LaFeO3 by co-doping with Dy3+ and Ti4+" Journal of Alloys and CompoundsVolume 726, 5 December 2017, Pages 1195-1204, 2017 Линк
351. Shinova, E., Stoyaova, R., Zhecheva, E., Ortiz, G. F., Lavela, P., Tirado, J. L.. Cationic distribution and electrochemical performance of LiCo1/3Ni1/3Mn1/3O2 electrodes for lithium-ion batteries. Solid State Ionics, 179, 38, 2008, ISSN:0167-2738, 2198-2208. ISI IF:2.561
Цитира се в:
1278. Omelcenko, A., Wulfmeier, H., Albrecht, D., El Mofid, W., Ivanov, S., Bund, A., & Fritze, H. (2017). Thin-film calorimetry: In-situ characterization of materials for lithium-ion batteries. International Journal of Materials Research, 108(11), 904-919., 2017 Линк
1279. Senćanski, J., Bajuk-Bogdanović, D., Majstorović, D., Tchernychova, E., Papan, J., & Vujković, M. (2017). The synthesis of Li (Co Mn Ni) O 2 cathode material from spent-Li ion batteries and the proof of its functionality in aqueous lithium and sodium electrolytic solutions. Journal of Power Sources, 342, 690-703., 2017 Линк
1280. Reynaud, M., & Casas-Cabanas, M. (2017). Order and disorder in NMC layered materials: a FAULTS simulation analysis. Powder Diffraction, Volume 32, Issue S1 September 2017 , pp. S213-S220., 2017 Линк
1281. Senćanski, J. V. (2017). Reciklaža litijum jonskih baterija sa katodnim materijalom LiNixCoyMnzO2 (Doctoral dissertation, Univerzitet u Beogradu-Fakultet za fizičku hemiju)., 2017 Линк
1282. Dillon, Shen J. In-Situ TEM Observations of Degradation Mechanisms in Next-Generation High-Energy Density Lithium-Ion Battery Systems. No. DOE-UIUC-DE-SC0006509. Univ. of Illinois, Urbana-Champaign, IL (United States), 2017., 2017 Линк
352. Mihaylov, M., Ivanova, E., Hao, Y., Hadjiivanov, K., Knözinger, H., B.C. Gates. Gold Supported on La2O3: Structure and Reactivity with CO2 and Implications for CO Oxidation Catalysis. J. Phys. Chem., C, 112, 48, American Chemical Society, 2008, DOI:10.1021/jp805212w, 18973. SJR:2.514, ISI IF:4.772
Цитира се в:
1283. N. Alfi, A. Rezvani, M. Khorasani-Motlagh and M. Noroozifar, A facile route for the preparation of new Pd/La2O3 catalyst with the lowest palladium loading by a new reduction system as a high performance catalyst towards ethanol oxidation, Int. J. Hydrogen Energy, 42 (2017) 18991 [ISI]., 2017 Линк
1284. X.-Y. Chen, S.-L. Chen, A.-P. Jia, J.-Q. Lu and W.-X. Huang, Gas phase propylene epoxidation over Au supported on titanosilicates with different Ti chemical environments, Appl. Surf. Sci., 393 (2017) 11 [ISI]., 2017 Линк
page 120/232
353. Hagendorf, Ch., Sachert, S., Bochmann, B., Kostov, K., Widdra, W.. Growth, atomic structure, and vibrational properties of MnO ultrathin films on Pt(111). Physical Review B, 77, 7, American Physical Society, 2008, ISSN:1098-0121, DOI:10.1103/PhysRevB.77.075406, 075406 (1)-075406 (9). ISI IF:3.736
Цитира се в:
1285. Chen, Z., Mao, Y., Chen, J., Wang, H., Li, Y. and Hu, P., Understanding the dual active sites of FeO/Pt (111) interface and reaction kinetics: A density functional theory study on methanol oxidation to formaldehyde. ACS Catalysis, 7 (7), pp 4281–4290, 2017, 2017 Линк
354. Gabrashanska, M, Manga-Gonzalez, M.Y., Ermidou-Pollet, S., Anisimova, M, Tepavitcharova, S. Effect of 2Gly.ZnCl2.2H2O on antioxidant status in rats under fasciolosis. Trace Elements and Electrolytes, 25, 4, Dustri-Verlag Dr. Karl Feistle, 2008, ISSN:0946-2104, 199-205. ISI IF:0.54
Цитира се в:
1286. Bette S, B. Hinrichsen, Dinnebier R., On two glycine zinc sulfate phases with exotic cation coordination geometries. Z. Anorg. Allg. Chem., 643 (23), pp. 1855–1860, DOI 10.1002/ zaac.201700217, 2017, 2017 Линк
355. Kefirov, R., Ivanova, E., Hadjiivanov , K., S. Dzwigaj, M. Che. FTIR Characterization of Fe3+–OH groups in Fe–H–BEA Zeolite: Interaction with CO and NO. Catalysis Letters, 125, Springer US, 2008, DOI:10.1007/s10562-008-9577-3, 209-214. ISI IF:2.307
Цитира се в:
1287. J.H. Baek, S.M. Lee, J.H. Park, J.M. Jeong, R.H. Hwang, C.H. Ko, S.G. Jeon, T.H. Choi and K.B. Yi, Effects of steam introduction on deactivation of Fe-BEA catalyst in NH3-SCR of N2O and NO, J. Ind. Eng. Chem., 48 (2017) 194 [ISI]., 2017 Линк
1288. J. Liu, J. Liu, Z. Zhao, Y. Wei and W. Song, Influence of the nature and environment of manganese in Mn-BEA zeolites on NO conversion in selective catalytic reduction with ammonia, AIChE J., 63 (2017) 4430 [ISI, 2017 Линк
1289. S.-W. Jung and S.-M. Koo, SiC Nanoparticles-Incorporated ZTO/SiC Heterojunction Diodes, J. Nanosci. Nanotechnol., 17 (2017) 7205 [ISI]., 2017 Линк
356. Novakovic, T., Radic, N., Grbic, B., Dondur, V., Mitric, M., Randjelovic, D., Stoychev, D., Stefanov, P.. The thermal stability of porous alumina/stainless steel catalyst support obtained by spray pyrolysis. Applied Surface Science, 255, 5, Elsevier, 2008, ISSN:01694332, DOI:10.1016/j.apsusc.2008.08.074, 3049-3055. SJR:0.913, ISI IF:2.711
Цитира се в:
1290. Kang, Y., Choi, J., Park, J., Kim, W.-B., Lee, K.-J. "Characterization of stainless steel surface processed using electrolytic oxidation and titanium complex ion solution" (2017) Applied Surface Science, 415, pp. 161-165., 2017 Линк
1291. Kang, Y., Park, J., Lee, K.-J. "Surface treatment of stainless steel by electrolytic oxidation and deposition of titanium complexing ion solution to improve metal-ceramic adhesion" (2017) Journal of Adhesion Science and Technology, 31 (23), pp. 2571-2580., 2017 Линк
357. Vitanov, P., Stefanov, P., Harizanova, A., Ivanova, T.. XPS characterization of thin (Al2O3) x(TiO2)1-x films deposited on silicon. Journal of Physics: Conference Series, 113, 1, IOPscience, 2008, ISSN:17426588, DOI:10.1088/1742-6596/113/1/012036, a.n.012036. SJR:0.22
Цитира се в:
1292. Dong, Xiongbo; Sun, Zhiming; Jiang, Lei; et al Investigation on the film-coating mechanism of alumina-coated rutile TiO2 and its dispersion stability ADVANCED POWDER
page 121/232
TECHNOLOGY Volume: 28 Issue: 8 Pages: 1982-1988 , 2017, 2017 Линк
358. Uzunova-Buznova M., Dimitrov D., Radev D., Bojinova A., Todorovski D.. Effect of the mechanoactivation on the structure, sorption and photocatalytic properties of titanium dioxide. Materials Chemistry and Physics, 110, 2008, ISSN:0254-0584, DOI:10.1016/j.matchemphys.2008.02.005, 291-298. ISI IF:2.259
Цитира се в:
1293. Michael HUMLE; Photocatalytic composition; US 9573126 B2, 2017 Линк
1294. S. Wahyuningsih, et al. "Synthesis of TiO2 NRs - ZnO Composite for Dye Sensitized Solar Cell Photoanodes"; IOP Conf. Ser.: Earth Environ. Sci. 75 012006, 2017 Линк
1295. St. I. Yordanov, et al. "Influence of ethylene glycol on the hydrolysis Condensation behavior of Ti(IV) butoxide", Bulgarian Chemical Communications, Volume 49, Special Edition D pp. 265–270 2017, 2017 Линк
1296. Asvarov, A.S., Akhmedov, A.K., Abduev, A.K., Muslimov, A.E., Chiolerio, A. ; Effects of the mechanoactivation treatment on the structure of ZnO–Zn cermet mixture; 2017 Crystallography Reports; 62 (1) 144-147, 2017 Линк
1297. АСВАРОВ А.Ш. , ТРАНСФОРМАЦИЯ СТРУКТУРНОГО СОСТОЯНИЯ МЕТАЛЛОКЕРАМИЧЕСКОЙ СМЕСИ ZNO–ZN В ХОДЕ МЕХАНИЧЕСКОГО АКТИВАЦИОННОГО ВОЗДЕЙСТВИЯ, КРИСТАЛЛОГРАФИЯ Том: 62Номер: 1 Год: 2017 Страницы: 143-147, 2017 Линк
359. Drenchev B., Spassov T., Radev D.. Influence of alloying and microstructure on the electrochemical hydriding of TiNi-based ternary alloys. Journal of Applied Electrochemistry, 38, 4, 2008, ISSN:0021-891X, 437-444. ISI IF:2.223
Цитира се в:
1298. Zhang, Z., Elkedim, O., Ma, Y.Z., Balcerzak, M., Jurczyk, M. ; The phase transformation and electrochemical properties of TiNi alloys with Cu substitution: Experiments and first-principle calculations ; 2017 International Journal of Hydrogen Energy; 42 (5), 1444-1450, 2017 Линк
1299. Mieczyslaw Jurczyk, Marek Nowak. Ni-MHX Batteries, Handbook of Nanomaterials for Hydrogen Storage, Edited By Mieczyslaw Jurczyk, 2017 Линк
1300. Zhao Zhang. Synthesis, characterization and electrochemical hydrogen storage properties of mechanicalyl alloyed Ti-Mg-Ni : application as negative electrode for Ni-MH battery, , 2017 Линк
1301. Mateusz Balcerzak., TiNi-Based Hydrogen Storage Alloys and Compounds, Handbook of Nanomaterials for Hydrogen Storage, Edited ByMieczyslaw Jurczyk, 2017 Линк
360. Grigorova E., Khristov M., Khrussanova M., Peshev P.. Hydrogen sorption characteristics of the composites 90 wt.% Mg (MgH2)–10 wt.% V0.855Ti0.095Fe0.05. Journal of Materials Science, 43, Springer Netherlands, 2008, ISSN:0022-2461, DOI:10.1007/s10853-008-2779-7, 5336-5341. SJR:0.93, ISI IF:2.371
Цитира се в:
1302. Liu, Peng, et al. "Catalytic effect of (Ti0.85Zr0.15)(1.05)Mn1.2Cr0.6V0.1Cu0.1 on hydrogen storage properties of ultrafine magnesium particles".RSC ADVANCES. Volume: 7 Issue: 55 Pages: 34538-34547, 2017, 2017 Линк
361. Vassileva P., Tzvetkova P., Lakov L., Peshev P.. Thiouracil modified acticvated carbon as a sorbent for some precious and heavy metal ions. J. Porous. Mater, 15, 2008, 593-599. ISI IF:0.96
page 122/232
Цитира се в:
1303. Taheri, R., Bahramifar, N., Zarghami, M. R., Javadian, H., & Mehraban, Z. Nanospace engineering and functionalization of MCM-48 mesoporous silica with dendrimer amines based on [1, 3, 5]-triazines for selective and pH-independent sorption of silver ions from aqueous solution and electroplating industry wastewater. (2017) Powder Technology, 321, pp. 44-54., 2017
362. Gentscheva G., Vassileva P., Tzvetkova P., Lakov L., Peshev O., Ivanova E.. Activated carbon sorbent with thioetheric sites – preparation and characterization. J. Porous. Mater., 15, 2008, 331-334. ISI IF:0.96
Цитира се в:
1304. Zhanyong Li, Xinyuan Gao, Long Wu, Kaiwei Wang, Noriyuki Kobayashi, (2017) Preparation of activated carbons from poplar wood by chemical activation with KOH, Journal of Porous Materials, 24 (1) 193–202., 2017
363. Spassova I., Khristova M., Nickolov R., Mehandjiev D.. Novel application of depleted fullerene soot (DFS) as support of catalysts for low-temperature reduction of NO with CO. Journal of Colloid and Interface Science, 320, 1, Elsevier, 2008, 186-193. ISI IF:3.453
Цитира се в:
1305. Liu, T., Yao, Y., Wei, L., Shi, Z., Han, L., Yuan, H., ... & Sun, C. Z. (2017). Preparation and Evaluation of Cu-Mn-Oxide as High Efficiency Catalyst for CO Oxidation and NO Reduction by CO. The Journal of Physical Chemistry C.121 (23), pp 12757–12770, 2017 Линк
1306. Zhang, Q., Sun, X., Ruan, H. et al. Sci. China Mater. (2017) 60, 141-150. doi:10.1007/s40843-016-5160-9, 2017
364. Kefirov, R., A. Penkova, Hadjiivanov , K., S. Dzwigaj, M. Che. Stabilization of Cu+ Ions in BEA Zeolite: Study by FTIR Spectroscopy of Adsorbed CO and TPR. Microporous and Mesoporous Materials, 116, 1-3, Elsevier, 2008, DOI:doi:10.1016/j.micromeso.2008.03.032, 180-187. ISI IF:3.453
Цитира се в:
1307. C.A. Farberow, S. Cheah, S. Kim, J.T. Miller, J.R. Gallagher, J.E. Hensley, J.A. Schaidle and D.A. Ruddy, Exploring Low-Temperature Dehydrogenation at Ionic Cu Sites in Beta Zeolite To Enable Alkane Recycle in Dimethyl Ether Homologation, ACS Catal., 7 (2017) 3662 [ISI]., 2017 Линк
1308. Q. Liu, Z. Fu, L. Ma, H. Niu, C. Liu, J. Li and Z. Zhang, MnOx-CeO2 supported on Cu-SSZ-13: A novel SCR catalyst in a wide temperature range, Appl. Catal. A, 547 (2017) 146 [ISI]., 2017 Линк
1309. S.-Q. Chen, L.-L. Ling, S. Zhang, S.-F. Jiang, Z. Xu, W.-J. Liu and H. Jiang, Sustainable In Situ Carbothermal Reduction Route to Biochar Stabilized Ru–Cu Nanoalloys from Lignocellulosic Biomass as a Highly Efficient and Durable Catalyst, Adv. Sustainanle Syst., 1 (2017) 1700102 [ISI]., 2017 Линк
1310. Z. Qu, Y. Li, S. Huang, P. Chen and X. Ma, Clarification of copper species over Cu-SAPO-34 catalyst by DRIFTS and DFT study of CO adsorption, Sci. China Chem., 60 (2017) 912 [ISI]., 2017 Линк
1311. D. Amarajothi, A.M. Asiri, P. Concepcion and H. Garcia, yy Synthesis of borasiloxanes by oxidative hydrolysis of silanes and pinacolborane using Cu-3(BTC)(2) as a solid catalyst, Chem. Commun., 53 (2017) 9998 (SI) [pubs.rsc.org]., 2017 Линк
365. Stefanov, P., Atanasova, G., Manolov, E., Raicheva, Z., Lazarova, V.. Preparation and Characterization of SnO2 Films for Sensing Applications,. Journal of Physics: Conference Series, 100, 8, 2008, ISSN:1742-
page 123/232
6588, DOI:http://dx.doi.org/10.1088/1742-6596/100/8/082046, 082046. SJR:0.217
Цитира се в:
1312. R. Adzhri, , M.K. Md Arshad, Subash C.B. Gopinath, A.R. Ruslinda, , M.F.M. Fathil, C. Ibau, M. Nuzaihan M.N., Enhanced Sensitivity Mediated Ambipolar Conduction with p-type TiO2 Anatase Transducer for Biomarker Capturing, Sensors and Actuators A: Physical, Volume 259, 1 June 2017, Pages 57-67, http://dx.doi.org/10.1016/j.sna.2017.03.015, 2017
1313. Несов Сергей Николаевич, АТОМНАЯ И ЭЛЕКТРОННАЯ СТРУКТУРА КОМПОЗИТОВ НА ОСНОВЕ МНОГОСТЕННЫХ УГЛЕРОДНЫХ НАНОТРУБОК И ОКСИДА ОЛОВА, ПОЛУЧЕННЫХ С ПРИМЕНЕНИЕМ ГАЗОФАЗНОГО И ИОННО- ПЛАЗМЕННОГО МЕТОДОВ ФЕДЕРАЛЬНОЕ ГОСУДАРСТВЕННОЕ БЮДЖЕТНОЕ УЧРЕЖДЕНИЕ НАУКИ ОМСКИЙ НАУЧНЫЙ ЦЕНТР СИБИРСКОГО ОТДЕЛЕНИЯ РОССИЙСКОЙ АКАДЕМИИ НАУК Омск – 2017 , , 2017 Линк
366. Panayotov, D., Morris, J.R.. Catalytic Degradation of a Chemical Warfare Agent Simulant: Reaction Mechanisms on TiO2-Supported Au Nanoparticles. Journal of Physical Chemistry C, 112, American Chemical Society, 2008, ISSN:1932-7447, DOI:10.1021/jp7118668, 7496-7502. ISI IF:4.772
Цитира се в:
1314. Langlois, G. G., "Time-resolved surface dynamics: Directed reactivity, extraterrestrial ices, and nerve agent simulants". The University of Chicago, ProQuest Dissertations Publishing, 2017. 10257739, 2017 Линк
1315. Ash, T.; Debnath, T.; Ghosh, A.; Das, A. K., "Mechanistic Insight into the Molecular TiO2-Mediated Gas Phase Detoxication of DMMP: A Theoretical Approach". Chem. Res. Toxicol. 2017, 30 (5), 1177-1187; DOI: 10.1021/acs.chemrestox.7b00019, 2017 Линк
1316. Gutsev, G. L.; Ampadu Boateng, D.; Jena, P.; Tibbetts, K. M., "A Theoretical and Mass Spectrometry Study of Dimethyl Methylphosphonate: New Isomers and Cation Decay Channels in an Intense Femtosecond Laser Field". The Journal of Physical Chemistry A 2017, 121 (44), 8414-8424; DOI: 0.1021/acs.jpca.7b08889, 2017 Линк
367. Naydenov, A., Konova, P., Nikolov, P., Kligstedt, F., Kumar, N., Kovacheva, D., Stefanov, P., Stoyanova, R., Mehandjiev, D.. Decomposition of ozone on Ag/SiO2 catalyst for abatement of waste gases emissions. Catalysis Today, 137, 2-4, Elsevier, 2008, DOI:10.1016/j.cattod.2007.11.020, 471-474. SJR:1.692, ISI IF:3.893
Цитира се в:
1317. Liu, Yang, and Pengyi Zhang. "Removing Surface Hydroxyl Groups of Ce-Modified MnO2 To Significantly Improve Its Stability for Gaseous Ozone Decomposition." The Journal of Physical Chemistry C 121.42 (2017): 23488-23497., 2017 Линк
1318. Ding, Yanhua, et al. "Oxygen vacancies enabled enhancement of catalytic property of Al reduced anatase TiO 2 in the decomposition of high concentration ozone." Journal of Solid State Chemistry 250 (2017): 121-127. https://doi.org/10.1016/j.jssc.2017.03.022, 2017 Линк
1319. Ma, J., Wang, C., & He, H. Transition metal doped cryptomelane-type manganese oxide catalysts for ozone decomposition. Applied Catalysis B: Environmental, (2017), 201, 503-510., 2017 Линк
368. F. Romero-Sarria, A. Penkova, L.M. Martinez, M.A. Centeno, Hadjiivanov , K., J.A. Odriozola. Role of Water in the CO Oxidation Reaction on Au/CeO2: Modification of the Surface Properties. Applied Catalysis B: Environmental, 84, 1-2, Elsevier, 2008, DOI:doi:10.1016/j.apcatb.2008.03.010, 119-124. ISI IF:7.435
Цитира се в:
page 124/232
1320. C. Ramakrishna, S. Chandra Shekar, A.K. Gupta, Bijendra Saini, R. Krishna, G. Swetha and T. Gopi, Degradation of diethyl sulfide vapors with manganese oxide catalysts supported on zeolite-13X: The influence of process parameters and mechanism in presence of ozone, J. Environ. Chem. Eng., 5 (2017) 1484 [ISI]., 2017 Линк
1321. T. Tran-Thuy, C. Chen and S.D. Lin, Spectroscopic Studies of How Moisture Enhances CO Oxidation over Au/BN at Ambient Temperature, ACS Catal., 7 (2017) 4304 [ISI]., 2017 Линк
1322. T. Tran-Thuy, Influences of moisture on room temperature co oxidation over Au/BN catalysts, Ph. D. Thesis, National Taiwan University of Science and Technology, Taipei, Taiwan, 2017 [GS]., 2017
1323. F.G. Durán, B.P. Barbero and L.E. Cadús, Oxidation of ethyl acetate on Fe-Mn oxides from nitrates deposited by impregnation on monoliths of aisi 304 stainless steel, J. Chil. Chem. Soc., 62 (2017) 3708 [ISI]., 2017 Линк
369. Dimitriev Y., Bachvarova-Nedelcheva A., Iordanova R.. Glass formation tendency in the system SeO2-B2O3-Ag2O. Mater. Res. Bull., 43, 2008, ISSN:0025-5408, 1905-1910. SJR:0.842, ISI IF:2.435
Цитира се в:
1324. Palui A. and Ghosh A., “Mixed Glass Former Effect in Ag2O−SeO2−TeO2 Glasses: Dependence on Characteristic Displacement of Mobile Ions and Relative Population of Bond Vibrations”, Phys. Chem. C, 121 (16) (2017) pp. 8738−8745., 2017 Линк
370. Mladenov, M., Zlatilova, P., Raicheff, R., Vassilev, S., Petrov, N., Belov, K., Trenev, V., Kovacheva, D.. Synthesis and characterization of novel nanostructured carbon for supercapacitors on the basis of biomaterials. Bulgarian Chemical Communications, 40, 3, 2008, ISSN:0324-1130, 360-366. ISI IF:0.238
Цитира се в:
1325. Soserov, L., A. Stoyanova, and R. Stoyanova. "Activated nano-porous carbons as electrode materials for supercapacitors in aqueous electrolyte." BULGARIAN CHEMICAL COMMUNICATIONS 49 (2017): 15-21., 2017 Линк
1326. Stoyanova, Antonia. "Electrochemical Hybrid Supercapacitors Based on Activated Carbon and Iron Oxides." Journal of Progressive Research in Chemistry 4.2 (2017): 179-188., 2017 Линк
371. Novaković T., Radić, N., Grbić, B., Marinova Ts., Stefanov, P., Stoychev, D.. Oxidation of n-hexane over Pt and Cu–Co oxide catalysts supported on a thin-film zirconia/stainless steel carrier. Catalysis Communications, 9, 6, Elsevier, 2008, ISSN:1566-7367, 1111-1118. SJR:0.91, ISI IF:3.33
Цитира се в:
1327. Uson l. et al., "In-situ preparation of ultra-small Pt nanoparticles within rod-shaped mesoporous silica particles: 3-D tomography and catalytic oxidation of n-hexane" CATALYSIS COMMUNICATIONS Volume: 100 (2017) Pages: 93-97, 2017 Линк
372. Bojinov, V., Simeonov, D., Georgiev, N.. A novel blue fluorescent 4-(1,2,2,6,6-pentamethylpiperidin-4-yloxy)-1,8-naphthalimide pH chemosensor based on photoinduced electron transfer. Dyes and Pigments, 76, 1, Elsevier, 2008, ISSN:0143-7208, DOI:10.1016/j.dyepig.2006.08.006, 41-46. ISI IF:3.966
Цитира се в:
1328. M. I. Khan, K. Mukherjee, R. Shoukat, H. Dong. A review on pH sensitive materials for sensors and detection methods. Microsyst. Technol. 23 (10), 4391-4404 (2017)., 2017
1329. Z. Bao, C. Lu, C. Qin, S. Tang, L. Dai, G. Chen, F. Mei. Preparation of fluorescent polyacrylonitrile nanofiber membrane based on polymerizable 1, 8-naphthalimide fluorescent disperse dye. Fibers Polymers 18 (6), 1017-1024 (2017), 2017 Линк
page 125/232
1330. S. O. Aderinto, H. Zhang, H. Wu, C. Chen, J. Zhang, H. Peng, Z. Yang, F. Wang. Synthesis and studies of two proton-receptor fluorescent probes based on 1, 8-naphthalimide. Color. Technol. 133 (1), 40-49 (2017)., 2017
373. Bojinov, V., Panova, I., Simeonov, D.. Design and synthesis of polymerizable yellow-green emitting 1,8-naphthalimides containing built-in s-triazine UV absorber and hindered amine stabilizer fragments. Dyes and Pigments, 78, 2, Elsevier, 2008, ISSN:0143-7208, DOI:10.1016/j.dyepig.2007.10.010, 101-110. ISI IF:3.966
Цитира се в:
1331. . Hu, S. Wu, Q. Liu, M. I. G. Hernández, W. Zeng, W. Xie. Study of antiultraviolet asphalt modifiers and their antiageing effects. Advances in Materials Science and Engineering 2017, Article ID 9595239 (2017)., 2017 Линк
374. Nickolova, D., Stoyanova, E., Stoychev, D., Avramova, I., Stefanov, P.. Protective effect in sulfuric acid media of alumina and ceria oxide layers electrodeposited on stainless steel. Surface and Coatings Technology, 202, 9, 2008, ISSN:0257-8972, 1876-1888. SJR:0.96, ISI IF:1.998
Цитира се в:
1332. Protsenko, V.S. et al., Electrodeposition of electrocatalytic and photocatalytic FE/TIO2 composite coatings using methanesulfonate electrolytes, Electrospinning and Electroplating: Fundamentals, Methods and Applications1 January 2017, Pages 177-226, 2017 Линк
1333. Protsenko, V.S. et al., Fe/TiO2 composite coatings modified by ceria layer: Electrochemical synthesis using environmentally friendly methanesulfonate electrolytes and application as photocatalysts for organic dyes degradation, Journal of Environmental Chemical EngineeringVolume 5, Issue 1, 1 February 2017, Pages 135-146, 2017 Линк
375. Nikolova, V., Iliev, P., Petrov, K., Vitanov, T., Zhecheva, E., Stoyanova, R., Valov, I., Stoychev, D.. Electrocatalysts for bifunctional oxygen/air electrodes. Journal of Power Sources, 185, 2, Elsevier, 2008, ISSN:0378-7753, 727-733. ISI IF:6.217
Цитира се в:
1334. Pchelarov, G., Uzun, D., Razkazova-Velkova, E., Dimitrov, O., Vassilev, S., & Petrov, K. (2017). Electrocatalysts for sulphur ions oxidation based on DWCNTs, MWCNTs, higher fullerenes and manganese, Bulgarian Chemical Communications, Volume 49 Special Issue C (pp. 218– 226) 2017., 2017 Линк
1335. Silva, R. A., Soares, C. O., Afonso, R., Carvalho, M. D., Tavares, A. C., Jorge, M. M., ... & Rangel, C. M. (2017). Synthesis and electrocatalytic properties of La 0.8 Sr 0.2 FeO 3− δ perovskite oxide for oxygen reactions, AIMS Materials Science, 4(4): 991-1009., 2017 Линк
1336. Kim, K., Kim, M. P., & Lee, W. G. (2017). Preparation and evaluation of mesoporous carbon derived from waste materials for hybrid-type Li–air batteries. New Journal of Chemistry, 41(17), 8864-8869., 2017 Линк
1337. Kim, K., & Lee, W. G. (2017). A hybrid-type Li–air battery based on a polypyrrole/carbon nanocomposite catalyst as the cathode. New Journal of Chemistry, 41(3), 1321-1326., 2017 Линк
1338. Zhang, H., Li, X., & Zhang, H. (2017). Li–S and Li–O2 Batteries with High Specific Energy. In Li-S and Li-O2 Batteries with High Specific Energy, SpringerBriefs in Molecular ScienceSpringer Singapore, pp. 1-48., 2017 Линк
1339. Lee, D. U. (2017). Nanostructured Spinel Oxides as Bi-functional Electrocatalysts for Rechargeable Metal-Air Batteries, PhD Thesis., 2017 Линк
page 126/232
1340. Li, L., Chang, Z. W., & Zhang, X. B. (2017). Recent Progress on the Development of Metal‐Air Batteries. Advanced Sustainable Systems, vol. 1, issue 10, 1700036., 2017 Линк
1341. Jalili, S., Goliaei, E. M., & Schofield, J. (2017). K 1.33 Mn 8 O 16 as an electrocatalyst and a cathode. Journal of Solid State Chemistry, 246, 388-398., 2017 Линк
1342. Gorman, S.F., PhD Thesis "Development and Operation of an Electrically Rechargeable Zinc-Air Flow Battery", 2017, UNIVERSITY OF SOUTHAMPTON, Dissertation., 2017
376. Uzunova E, Mikosch H, Nikolov G. Electronic structure of oxide, peroxide, and superoxide clusters of the 3d elements: A comparative density functional study. J. Chem. Phys., 128, AIP, 2008, DOI:http://dx.doi.org/10.1063/1.2831583, 094307. ISI IF:3.017
Цитира се в:
1343. YC Chou The low-lying doublet electronic excited states of TiO2-: A symmetry adapted cluster–configuration interaction (SAC-CI) study Computational and Theoretical Chemistry Volume 1111, 1 July 2017, Pages 50-55, 2017
377. Bozhkov, O., Tzvetkova, Chr., Blagoeva, T.. An Approach to Rhenium Phytorecovery from Soils and Waters in Ore Dressing Regions of Bulgaria. Proceedings of the 2nd International Conference on WASTE MANAGEMENT, WATER POLLUTION, AIR POLLUTION, INDOOR CLIMATE (WWAI'08), Corfu, Greece, 26-28 October 2008, 2008, ISBN:978-960-474-142-7, ISSN:1790-5095, 262-265
Цитира се в:
1344. Novo, L. A. B., Castro, P. M. L., Alvarenga, P. Ferreira da Silva, E. Phytomining of rare and valuable metals (2017) Phytoremediation, pp. 469-486, 2017
378. Uzunova E, Mikosch H, Hafner J. Adsorption of NO on Cu-SAPO-34 and Co-SAPO-34: A Periodic DFT Study. J. Phys. Chem. C, 112, ACS, 2008, 2632-2640. ISI IF:4.77
Цитира се в:
1345. Bull, I., Xue, W.M., Burk, P., Boorse, R.S., Jaglowski, W.M., Koermer, G.S., Moini, A., Patchett, J.A., Dettling, J.C. and Caudle, M.T., BASF Corp, 2017. Copper CHA zeolite catalysts. U.S. Patent 9, 839, 905., 2017
379. Stefanov, P., Shipochka, M., Stefchev, P., Raicheva, Z., Lazarova, V., Spassov, L.. XPS characterization of TiO2 layers deposited on quartz plates. Journal of Physics: Conference Series, 100, 2008, ISSN:1742-6588, 012039. SJR:0.229
Цитира се в:
1346. Rico-Santacruz, M.et al, "Bottom-up construction of highly photoactive dye-sensitized titania using Ru(II) and Ir(III) complexes as building blocks" (2017) Applied Catalysis B: Environmental, 200, pp. 93-105., 2017 Линк
1347. Pan, S., et al., "Hierarchical SnO2hollow sub-microspheres for panchromatic PbS quantum dot-sensitized solar cells" (2017) Journal of Alloys and Compounds, 709, pp. 187-196., 2017 Линк
1348. Wang, W., Zhao, W., Feng, X., He, L., Cao, Q., Ma, J. Structural, electrical and optical properties of In doped brookite TiO2 thin films deposited on YSZ (110) substrates by MOCVD (2017) Journal of Alloys and Compounds, 708, pp. 1195-1200., 2017 Линк
1349. Nezar, S., Saoula, N., Sali, S., Faiz, M., Mekki, M., Laoufi, N.A., Tabet, N. Properties of TiO2 thin films deposited by rf reactive magnetron sputtering on biased substrates (2017) Applied Surface Science, 395, pp. 172-179., 2017 Линк
1350. Krishnan, P., Liu, M., Itty, P.A., Liu, Z., Rheinheimer, V., Zhang, M.-H., Monteiro, P.J.M., Yu, L.E. Characterization of photocatalytic TiO2 powder under varied environments using near
page 127/232
ambient pressure X-ray photoelectron spectroscopy (2017) Scientific Reports, 7, art. no. 43298, , 2017 Линк
1351. Tandy, L.M.F., Bueno, J.J.P., Vong, Y.M., Torres, I.Z., Rojas, L.L., Torres, C.J.R., GutiГ©rrez, H.M., LГіpez, M.L.M. Reversible photochromic effect in the TiO2—polymer hybrid system (2017) Journal of Sol-Gel Science and Technology, 82 (1), pp. 51-58., 2017 Линк
1352. Sugizaki, Y., Ozawa, K., Edamoto, K. Growth of ultrathin titanium oxide films on Ag(110) (2017) Japanese Journal of Applied Physics, 56 (8), art. no. 085501, , 2017 Линк
1353. Dwivedi, P., Chauhan, N., Vivekanandan, P., Das, S., Sakthi Kumar, D., Dhanekar, S. Scalable fabrication of prototype sensor for selective and sub-ppm level ethanol sensing based on TiO2 nanotubes decorated porous silicon (2017) Sensors and Actuators, B: Chemical, 249, pp. 602-610., 2017 Линк
1354. Haisheng Xu, Xianjin Feng, Caina Luan and Jin Ma "Synthesis and characterization of structural and optical properties of single crystalline a-TiO2 films on MgAl2O4(111) substrate" IOP Conference Series: Materials Science and Engineering, 167 (2017) p. 012036, 2017 Линк
1355. Sung, Dahye, et al. "Effect of composite PEO film containing titanium oxides on the corrosion resistance of Al 6061 alloy." Surface and Coatings Technology 309 (2017): 698-702., 2017 Линк
2009
380. Penkova, A., Chakarova, K., Laguna, O. H., Hadjiivanov, K., Romero Saria, F., Centeno, M. A., Odriozola, J. A.. Redox chemistry of gold in a Au/FeOx/CeO2 CO oxidation catalyst. Catalysis Communications, 10, 2009, DOI:10.1016/j.catcom.2009.01.014, 1196-1202. ISI IF:3
Цитира се в:
1356. Y. Kotolevich, E. Kolobova, E. Khramov, M. H. Farías, Ya. Zubavichus, H. Tiznado, S. Martínez-González, V. Cortés Corberán, J. D. Mota-Morales, A. Pestryakov, N. Bogdanchikova, "n-Octanol oxidation on Au/TiO2 catalysts promoted with La and Ce oxides", Molecular Catalysis, 427 (2017) 1-10., 2017 Линк
1357. P. Kaminski, M. Ziolek, J.A. van Bokhoven, "Mesoporous cerium–zirconium oxides modified with gold and copper – synthesis, characterization and performance in selective oxidation of glycerol ", RSC Advances, 7 (2017) 7801-7819., 2017 Линк
1358. J. L. Ayastuy, U. Iriarte-Velasco, A. Gurbani, M. A. Gutiérrez-Ortiz, "Investigation of the calcination temperature effect on the interaction between Au nanoparticles and the catalytic support α-Fe2O3 for the low temperature CO oxidation", Journal of the Taiwan Institute of Chemical Engineers, 75 (2017) 18-28., 2017 Линк
1359. L. Arab, "Proprietes physico-chimiques et catalytiques des hydroxydes doubles lamellaires (HDL) dopes a l'or. Application par l'oxydation du CO", Ph. D. Thesis, Universite Ferhat Abbas, Setif, Algeria, 2017 [GS]., 2017
381. Martha, S.K., Markevich, E., Burgel, V., Salitra, G., Zinigrad, E., Markovsky, B., Sclar, H., Pramovich, Z., Heik, O., Aurbach, D., Exnar, I., Buqa, H., Drezen, T., Semrau, G., Schmidt, M., Kovacheva, D., Saliyski, N.. A short review on surface chemical aspects of Li batteries: A key for a good performance. Journal of Power Sources, 189, 1, 2009, ISSN:0378-7753, DOI:10.1016/j.jpowsour.2008.09.084, 288-296. ISI IF:6.217
Цитира се в:
1360. Zuo, Xiaoxi, et al. "Effect of diphenyl disulfide as an additive on the electrochemical performance of Li 1.2 Mn 0.54 Ni 0.13 Co 0.13 O 2/graphite batteries at elevated temperature." Electrochimica Acta (2017) 705-714., 2017 Линк
page 128/232
1361. Leifer, Nicole, et al. "Studies of Spinel-to-Layered Structural Transformations in LiMn2O4 Electrodes Charged to High Voltages." The Journal of Physical Chemistry C 121.17 (2017): 9120-9130., 2017 Линк
1362. Faenza, Nicholas, et al. "Electrolyte Induced Surface Transformation and Transition Metal Dissolution of Fully Delithiated LiNi0. 8Co0. 15Al0. 05O2." Langmuir (2017) pp 9333–9353., 2017 Линк
1363. Yue, Yuan, and Hong Liang. "Micro‐and Nano‐Structured Vanadium Pentoxide (V2O5) for Electrodes of Lithium‐Ion Batteries." Advanced Energy Materials (2017)., 2017 Линк
1364. Shi, Yang, et al. "Direct Visualization of Nucleation and Growth Processes of Solid Electrolyte Interphase Film using in situ AFM." ACS Applied Materials & Interfaces (2017) pp 22063–22067., 2017 Линк
1365. Giorgetti, Marco, and Lorenzo Stievano. "X-Ray Absorption Spectroscopy Study of Battery Materials." X-ray Characterization of Nanostructured Energy Materials by Synchrotron Radiation. InTech, 2017., 2017 Линк
1366. Wang, Chengyun, et al. "3, 3′-(Ethylenedioxy) dipropiononitrile as an Electrolyte Additive for 4.5 V LiNi1/3Co1/3Mn1/3O2/Graphite Cells." ACS Applied Materials & Interfaces 9.11 (2017): 9630-9639., 2017 Линк
1367. Duda, L-C., and K. Edström. "Oxygen redox reactions in Li ion battery electrodes studied by resonant inelastic X-ray scattering." Journal of Electron Spectroscopy and Related Phenomena (2017) 79-87., 2017 Линк
1368. Hou, P., Yin, J., Ding, M., Huang, J., Xu, X. Surface/Interfacial Structure and Chemistry of High-Energy Nickel-Rich Layered Oxide Cathodes: Advances and Perspectives (2017) Small, 13 (45), art. no. 1701802, ., 2017 Линк
1369. Pan, X. N., et al. "A piperidinium-based ester-functionalized ionic liquid as electrolytes in Li/LiFePO4 batteries." Ionics 23.11 (2017): 3151-3161., 2017 Линк
382. Georgieva, V., Stefanov, P., Spassov, L., Raicheva, Z., Atanassov, M., Tincheva, T., Manolov, E., Vergov, L.. Thin MoO3 films for sensor applications. Journal of Optoelectronics and Advanced Materials, 11, 10, 2009, ISSN:14544164, 1363-1366. SJR:0.18, ISI IF:0.43
Цитира се в:
1370. Dimova-Malinovska, D., Nanostructured ZnO - Its challenging properties and potential for device applications, Journal of Physics: Conference Series 794 (2017) 012001., 2017 Линк
383. Hao, Y., Mihaylov, M., Ivanova, E., Hadjiivanov, K., Knözinger, H., Gates, B.C.. CO Oxidation Catalyzed by Gold Supported on MgO: Spectroscopic Identification of Carbonate-like Species Bonded to Gold during Catalyst Deactivation. Journal of Catalysis, 261, 2, 2009, DOI:doi:10.1016/j.jcat.2008.11.005, 137-149. ISI IF:6.921
Цитира се в:
1371. J.L. Shi, X. Zhao, L. Zhang, X. Xue, Z.X. Guo, Y. Gao and S. Li, "An oxidized magnetic Au single atom on doped TiO2(110) becomes a high performance CO oxidation catalyst due to the charge effect " J. Mater. Chem. A, 5 (2017) 19316, 2017 Линк
1372. Y. Wang, D. Widmann, F. Lehnert, D. Gu, F. Schüth and R.J. Behm, Avoiding Self-Poisoning: A Key Feature for the High Activity of Au/Mg(OH)2 Catalysts in Continuous Low-Temperature CO Oxidation., Angew. Chem. Int. Ed., 129 (2017) 9726 [ISI]., 2017 Линк
1373. Z. Cao, L. Guo, N. Liu, W. Li, X. Zheng, Y. Shi, J. Guo and Y. Xi, Theoretical investigation of water-gas shift reaction catalyzed by water-soluble Rh (III)–EDTA complex, Theor. Chem. Acc., 136 (2017) 53 [ISI]., 2017 Линк
1374. A. Sandovala, R. Zanella and T.E. Klimova, Titania nanotubes decorated with anatase nanocrystals as support for active and stable gold catalysts for CO oxidation, Cat. Today,
page 129/232
282(2016) 140-150 [ISI]., 2017 Линк
1375. S. Guadix-Montero, H. Alshammari, R. Dalebout, E. Nowicka, D.J. Morgan, G. Shaw, Q. He and M. Sankar, Deactivation studies of bimetallic AuPd nanoparticles supported on MgO during selective aerobic oxidation of alcohols, Appl. Catal. A, 546 (2017) 58-66, 2017 Линк
1376. Y. Wang, D. Widmann, M. Wittmann, F. Lehnert, D. Gu, F. Schüthb and R.J. Behm, High activity and negative apparent activation energy in low-temperature CO oxidation – present on Au/Mg(OH)2, absent on Au/TiO2, Catal. Sci. Technol., 7 (2017) 4145-4161, 2017 Линк
1377. J. Zhang, J. Sun, J. Li and T. Zhou, Study on deactivation of nanosized Au/CeO2 catalysts in
storage | [Au/CeO2 催化剂储存失活性研究], J. Funct. Mater., 48 (2017) 11021 [Scopus].,
2017 Линк
1378. J. Zhang, J. Sun, J. Li, T. Zhou and L. Chen, Research progress of supported nanosized gold catalysts for low-temperature CO oxidation, Mater. Rev., 31 (2017) 136 [GS]., 2017 Линк
384. Martha, S.K., Sclar, H., Szmuk Framowitz, Z., Kovacheva, D., Saliyski, N., Gofer, Y., Sharon, P., Golik, E., Markovsky, B., Aurbach, D.. A comparative study of electrodes comprising nanometric and submicron particles of LiNi0.50Mn0.50O2, LiNi0.33Mn0.33Co0.33O2, and LiNi0.40Mn0.40Co0.20O2 layered compounds. Journal of Power Sources, 189, 1, 2009, ISSN:0378-7753, DOI:10.1016/j.jpowsour.2008.09.090, 248-255. ISI IF:6.217
Цитира се в:
1379. Kumar, S. Krishna, et al. "Synergistic effect of 3D electrode architecture and fluorine doping of Li 1.2 Ni 0.15 Mn 0.55 Co 0.1 O 2 for high energy density lithium-ion batteries." Journal of Power Sources 356 (2017): 115-123., 2017 Линк
1380. Liu, Yuxiu, et al. "In-situ polymerized lithium polyacrylate (PAALi) as dual-functional lithium source for high-performance layered oxide cathodes." Electrochimica Acta 249 (2017): 43-51., 2017 Линк
1381. Duda, L-C., and K. Edström. "Oxygen redox reactions in Li ion battery electrodes studied by resonant inelastic X-ray scattering." Journal of Electron Spectroscopy and Related Phenomena Volume 221 (2017) 79-87., 2017 Линк
1382. Liu, Parker, et al. "J Materiomics." (2017) 1-7., 2017 Линк
1383. Jiang, Xuyin, et al. "LiNi 0.29 Co 0.33 Mn 0.38 O 2 polyhedrons with reduced cation mixing as a high-performance cathode material for Li-ion batteries synthesized via a combined co-precipitation and molten salt heating technique." Journal of Alloys and Compounds 691 (2017): 206-214., 2017 Линк
1384. Ludwig, Jennifer, et al. "Particle size-controllable microwave-assisted solvothermal synthesis of the high-voltage cathode material LiCoPO 4 using water/ethylene glycol solvent blends." Solid State Sciences 65 (2017): 100-109., 2017 Линк
1385. Zhang, Yun-Peng, et al. "Effect of Aluminum Doping on the Stability of Lithium-Rich Layered Oxide Li [Li0. 23Ni0. 15Mn0. 52Al0. 10] O2 as Cathode Material." Int. J. Electrochem. Sci 12 (2017): 9051-9060., 2017 Линк
1386. Liu, Parker, et al. "High throughput materials research and development for lithium ion batteries." Journal of Materiomics 3.3 (2017): 202-208., 2017 Линк
1387. Masoumi, Maryam, et al. "Enthalpies of formation of layered LiNi x Mn x Co1–2 x O2 (0≤ x≤ 0.5) compounds as lithium ion battery cathode materials." International Journal of Materials Research (2017) 869-878., 2017 Линк
1388. Kleiner, Karin, and Helmut Ehrenberg. "Challenges Considering the Degradation of Cell Components in Commercial Lithium-Ion Cells: A Review and Evaluation of Present Systems." Topics in Current Chemistry 375.3 (2017): 54., 2017 Линк
page 130/232
1389. Zhao Shixi, et al. "Advances in the mechanism of Li2MnO3 activation and its influencing factors." Journal of the Chinese Ceramic Society 45.4 (2017): 495-503., 2017 Линк
1390. Aregai, G. Tewodros, et al. "Effect of calcination and sintering temperature on the properties of layered LiNi1/3Co1/3Mn1/3O2 cathode material for lithium-ion batteries.", International Journal of ChemTech Research, Vol. 10 No. 10 (2017) 479-489., 2017 Линк
1391. Zhou, Shuo, et al. "Enhanced rate performance and high potential as well as decreased strain of LiNi 0.6 Co 0.2 Mn 0.2 O 2 by facile fluorine modification." Electrochimica Acta (2017)., 2017 Линк
1392. Nayak, Prasant Kumar, et al. "Review on Challenges and Recent Advances in the Electrochemical Performance of High Capacity Li‐and Mn‐Rich Cathode Materials for Li‐Ion Batteries." Advanced Energy Materials (2017) 1702397., 2017 Линк
385. Avramova, I, Stoyanova, D, Kasabova, N. The role of modified alumina support for the formation of active Cu-Co oxide phase – an XPS investigation. Journal of Chemical Technology and Metallurgy, 44, 4, 2009, ISSN:1314-7978, 359-364. SJR:0.168
Цитира се в:
1393. L. Giron, Willian Aperador, L. Tirabo, F. Franco, Julio Caicedo "Electrochemical Performance Estimation of Anodized AZ32B Magnesium Alloy as Function of change in Current Density"J ournal of Materials Engineering and Performance, 26 (8) (2017) 3710-3718., 2017 Линк
386. Dzwigaj, S., Ivanova, E., Kefirov, R., Hadjiivanov, K., Averseng, F., Krafft, J.M., Che, M.. Remarkable Effect of the Preparation Method on the State of Vanadium in BEA Zeolite: Lattice and Extra-Lattice V Species. Catalysis Today, 142, 3-4, 2009, DOI:doi:10.1016/j.cattod.2008.09.031, 185-191. ISI IF:3.309
Цитира се в:
1394. T.Q. Silva, M.B. dos Santos, A.A.C. Santiago, D.O. Santana, F.T. Cruz, H.M.C. Andrade and A.J.S. Mascarenhas, Gas phase glycerol oxidative dehydration over bifunctional V/H-zeolite catalysts with different zeolite topologies, Catal. Today, 289 (2017) 38–46, 2017 Линк
1395. X. Liu, S. Zhong, F. Yang, H. Su, W. Lin, J. Chen, L. Peng, S. Zhou, Y. Kong, Template-Free Synthesis of High-Content Vanadium-Doped ZSM-5 with Enhanced Catalytic Performance, ChemistrySelect, 2(2017) 11513-11520, 2017 Линк
387. Detcheva, A., Barth, P., Hassler, J.. Calibration Possibilities and Modifier Use in ETV ICP OES Determination of Trace and Minor Elements in Plant Materials. Analytical and Bioanalytical Chemistry, 2009, DOI:DOI 10.1007/s00216-009-2835-4, 1485-1495. ISI IF:3.48
Цитира се в:
1396. Santos, C. M. M., Nunes, M. A. G., Costa, A. B., Pozebon, D., Duarte, F. A., Dressler, V. L. "Multielement determination in medicinal plants using electrothermal vaporization coupled to ICP OES" (2017) Analytical Methods 9(23) pp. 3497-3504, 2017
388. Beshkova, M., Blagoev, B., Kovacheva, D., Mladenov, G., Nurgaliev, T.. Effect of thermal annealing on the properties of the YBCO films grown by DC magnetron sputtering. Journal of Optoelectronics and Advanced Materials, 11, 10, 2009, ISSN:14544164, 1537-1540. ISI IF:0.383
Цитира се в:
1397. Daptary, Gopi Nath, et al. "Effect of microstructure on the electronic transport properties of epitaxial CaRuO 3 thin films." Physica B: Condensed Matter 511 (2017): 74-79., 2017 Линк
page 131/232
389. Kovachev, S., Kovacheva, D., Aleksovska, S., Svab, E., Krezhov, K.. Structure and magnetic properties of multiferroic YCr1-xFe xO3 (0≤x≤1). Journal of Optoelectronics and Advanced Materials, 11, 10, 2009, ISSN:14544164, 1549-1552. ISI IF:0.383
Цитира се в:
1398. Li, C. L., et al. "Negative magnetization induced by Mn doping in YCrO 3." Journal of Magnetism and Magnetic Materials 432 (2017): 77-81., 2017 Линк
1399. Mall, Ashish Kumar, Ashish Garg, and Rajeev Gupta. "Modifications of the structure and magnetic properties of ceramic YCrO3 with Fe/Ni doping." Materials Research Express 4.7 (2017): 076104., 2017 Линк
390. Marinova, D., Georgiev, M., Stoilova, D.. Vibrational behavior of matrix-isolated ions in Tutton compounds. I. Infrared spectroscopic study of NH4+ and SO42- ions included in magnesium sulfates and selenates. Journal of Molecular Structure, 929, Elsevier, 2009, ISSN:0022-2860, DOI:doi:10.1016/j.molstruc.2009.04.004, 67-72. SJR:0.405, ISI IF:1.602
Цитира се в:
1400. Souamti, A., Martín, I. R., Zayani, L., Lozano-Gorrín, A. D., & Chehimi, D. B. H. (2017). Luminescence properties of Pr 3+ ion doped Mg-picromerite Tutton salt. Journal of Luminescence, 188, 148-153., 2017 Линк
391. Uzunova E. Intersystem Crossings of the Triplet and Singlet States in Cobalt and Copper Mononitrosyls. J. Phys Chem. A, 113, ACS, 2009, 11266-11273. ISI IF:2.69
Цитира се в:
1401. HJB Marroux, BFE Curchod, CA Faradji Spin Changes Accompany Ultrafast Structural Interconversion in the Ground State of a Cobalt Nitrosyl Complex Angewandte Chemie Int. Ed., 2017, Pages 13713, 2017
392. Dodoff, N. I., Kubiak, M., Kuduk-Jaworska, J., Mastalarz, A., Kochel, A., Vassilieva, V., Vassilev, N., Trendafilova, N., Georgieva, I., Lalia-Kantouri, M., Apostolova, M.. Structure, NMR spectra and cytotoxic effect of palladium(II) and platinum(II) complexes of glyoxylic acid oxime. Chemija, 20, 4, Lithuanian Academy of Sciences Publishers, 2009, ISSN:0235-7216, 208-217. ISI IF:0.472
Цитира се в:
1402. Davaasuren, B., Khanderi, J., Rothenberger, A., Polynuclear Iron-Oxo/Hydroxy Complexes of Ketoacidoximate Ligands: Synthesis, Structures and Conversion to Ferric Oxide, ChemistrySelect, Vol. 2, (7) pp. 4642–4647, (2017)., 2017 Линк
1403. Kucuk, I., Kaya, Y. and Kaya, A.A., Structural, spectroscopic (FT-IR, NMR, UV–visible), nonlinear optical (NLO), cytotoxic and molecular docking studies of 4-nitro-isonitrosoacetophenone (ninapH) by DFT method. (2017) Journal of Molecular Structure, 1139, pp.308-318., 2017 Линк
393. Tepavitcharova, S, Havlícˇek, D, Neˇmec, I, Vojtíšek, P, Rabadjieva, D, Plocek J. Structural and spectral characterization of the compounds nGly.ZnCl2.mH2O (n = 1,2,3; m = 0,2). Journal of Molecular Structure, 918, 1-3, Elsevier, 2009, ISSN:0022-2860, DOI:https://doi.org/10.1016/j.molstruc.2008.07.012, 55-63. SJR:0.401, ISI IF:1.753
Цитира се в:
1404. Athira, C.; Sunoj, Raghavan B., Role of Lewis acid additives in a palladium catalyzed directed C-H functionalization reaction of benzohydroxamic acid to isoxazolone, Organic & Biomolecular Chemistry, 15 (1), pp. 246-255, 2017, 2017 Линк
page 132/232
394. Hadjiivanov , K., H. Knözinger. Characterization of Vacant Coordination Sites of Cations on the Surfaces of Oxides and Zeolites using Infrared Spectroscopy of Adsorbed Probe Molecules. Surface Science, 603, 10-12, Elsevier, 2009, DOI:doi:10.1016/j.susc.2008.09.052, 1629-1636. ISI IF:1.925
Цитира се в:
1405. S. Chaemchuen, Z. Luo, K. Zhou, B. Mousavi, S. Phatanasri, M. Jaroniec and F. Verpoort, Defect formation in metal–organic frameworks initiated by the crystal growth-rate and effect on catalytic performance, J. Catal., 354 (2017) 84 [ISI]., 2017 Линк
1406. A.N. Dobrotvorskaia, O.S. Pestsov and A.A. Tsyganenko, Lateral Interaction between Molecules Adsorbed on the Surfaces of Non-Metals, Top. Catal., 60 (2017) 1506[ISI]., 2017 Линк
1407. V. Sanchez Escribano, G. Garbarino, E. Finocchio and G. Busca, γ-Alumina and Amorphous Silica–Alumina: Structural Features, Acid Sites and the Role of Adsorbed Water, Top. Catal., 60 (2017) 1554 [ISI]., 2017 Линк
1408. J. Schumann, J. Kröhnert, E. Frei, R. Schlögl and A. Trunschke, R-Spectroscopic Study on the Interface of Cu-Based Methanol Synthesis Catalysts: Evidence for the Formation of a ZnO Overlayer, Top. Catal., 60 (2017) 1735 [ISI]., 2017 Линк
1409. Y. Wang and C. Wöll, IR spectroscopic investigations of chemical and photochemical reactions on metal oxides: bridging the materials gap, Chem. Soc. Rev, 46 (2017) 1875 [ISI]., 2017 Линк
395. Yoncheva, M., Stoyanova, R., Zhecheva, E., Alcantara, R., Tirado, J. L.. Effect of the synthesis procedure on the local cationic distribution in layered LiNi1/2Mn1/2O2. Journal of Alloys and Compounds, 475, 1-2, 2009, ISSN:0925-8388, 96-101. ISI IF:2.999
Цитира се в:
1410. Мария Лазарова Калъпсъзова, „Натриеви интеркалационни оксиди като катодни материали за екологични йонни батерии”, Докторска дисертация, 2017, Българска академия на науките, София (лит. 232)., 2017
1411. Yang J., Guo, B., He, H., Li, Y., Song, C., Liu, G., LiNi0.5Mn0.5O2 hierarchical nanorods as high-capacity cathode materials for Li-ion batteries, Volume 698, 25 March 2017, Pages 714–718., 2017 Линк
396. Milanova, M., Iordanova, R., Kostov, K.L.. Glass formation in the MoO3-CuO-PbO system. Journal of Non-Crystalline Solids, 355, 6, Elsevier, 2009, ISSN:00223093, DOI:doi:10.1016/j.jnoncrysol.2008.12.004, 379-385. SJR:0.753, ISI IF:1.766
Цитира се в:
1412. Jae-Young Shin, Jae-Min Cha, Dae-Sung Kim, Dea-Geol Jeong, Jun-Hyeon Bae, and Bong-Ki Ryu, Study on the Water Durability of Molybdate Glasses with B2O3 as Low Temperature Sealing Materials, Korean J. Met. Mater. 55, pp. 904~909, 2017, 2017 Линк
1413. Shin, J.Y. and Ryu, B.K., Structural, thermal, and chemical properties of boron oxide-doped molybdate glass for use as a lead-free low-temperature sealing material, Journal of the Ceramic Society of Japan, 125(12), pp. 922-925, 2017, 2017 Линк
1414. Rada, M., Zagrai, M., Rada, S., Bot, A. and Culea, E., Effects on the characteristics of bonding and local structure in molybdenum-lead-lead dioxide glasses and vitroceramics. Journal of Alloys and Compounds, 705, pp.327-332, 2017, 2017 Линк
397. Dimitriev, Y., Iordanova, R., Aleksandrov, L., Kostov, K.L.. Boromolybdate glasses containing rare earth oxides. Physics and Chemistry of Glasses - European Journal of Glass Science and Technology Part B, 50, 3, Society of Glass Technology, 2009, 212-218. ISI IF:0.691
page 133/232
Цитира се в:
1415. Jae-Young, Shin, et al. "Study on the Water Durability of Molybdate Glasses with B2O3 as Low Temperature Sealing Materials". Korean J. Met. Mater. 55 (12), 904-909, 2017, 2017 Линк
1416. Jae-Young, SHIN and Bong-Ki, RYU. "Structural, thermal, and chemical properties of boronoxide-doped molybdate glass for use as a lead-freelow-temperature sealing material". Journal of the Ceramic Society of Japan. 125 (12), 922-925 2017, 2017 Линк
398. Koleva, V., Zhecheva, E., Stoyanova, R.. A new phosphate-formate precursor method for the preparation of carbon coated nano-crystalline LiFePO4. Journal of Alloys and Compounds, 476, 1-2, 2009, ISSN:0925-8388, 950-957. ISI IF:2.999
Цитира се в:
1417. Таня Йорданова Бояджиева, Метални фосфати като електродни материали в алкални йонни батерии, Докторска дисертация, Българска академия на науките, София, 2017, лит. 168., 2017 Линк
1418. Chun, S. H., Kim, H. Y., Lee, Y., Hyesu, J., Jo, A., Lee, N. S., ... & Lee, C. (2017). A facile growth process of highly single crystalline Ir1-xVxO2 mixed metal oxide nanorods and their electrochemical properties. CrystEngComm.. CrystEngComm, 19, 3455-3464, 2017 Линк
1419. Yahiaoui, Z., Hassairi, M. A., & Dammak, M. (2017). Synthesis and Optical Spectroscopy of YPO4: Eu3+ Orange–Red Phosphors. Journal of Electronic Materials, 2017, Volume 46, Issue 8, pp 4765–4773., 2017 Линк
399. Sclar, H., Kovacheva, D., Zhecheva, E., Stoyanova, R., Lavi, R., Kimmel, G., Grinblat, J., Girshevitz, O., Amalraj, F., Haik, O., Zinigrad, E., Markovsky, B., Aurbach, D.. On the performance of LiNi1/3Mn1/3Co 1/3O2 nanoparticles as a cathode material for lithium-ion batteries. Journal of the Electrochemical Society, 156, 11, 2009, ISSN:0013-4651, DOI:10.1149/1.3212850, A938-A948. ISI IF:3.226
Цитира се в:
1420. Verma, Rakesh, et al. "Ternary lithium molybdenum oxide, Li 2 Mo 4 O 13: A new potential anode material for high-performance rechargeable lithium-ion batteries." Electrochimica Acta (2017), Volume 258, 20, Pages 1445-1452., 2017 Линк
1421. ZHAO, GUO Shuangtao, DENG Yufeng, XIONG Kai, XU Yahui, NAN Cewen, Progress on Mechanism and Impacting Factor of Electrochemical Activation for Li2MnO3, JOURNAL OF THE CHINESE CERAMIC SOCIETY, 45.4 (2017): 495-503., 2017 Линк
1422. Hu, Z., Wei, Q., Yu, Z., Ma, L., Zhou, K. Effect of annealing temperature on electrochemical
performance of LiNi1/3Co1/3Mn1/3O2 thin film cathode [退火温度对
LiNi1/3Co1/3Mn1/3O2薄膜 正极电化学性能的影响] (2017) Fenmo Yejin Cailiao Kexue
yu Gongcheng/Materials Science and Engineering of Powder Metallurgy, 22 (6), pp. 753-759., 2017 Линк
1423. Wen, W., Yao, J. C., Jiang, C. C., & Wu, J. M. (2017). Solution-combustion synthesis of nanomaterials for lithium storage. International Journal of Self-Propagating High-Temperature Synthesis, 26(3), 187-198., 2017 Линк
400. Georgieva, I., Trendafilova, N., Creaven, B. S., Walsh, M., Noble, A., McCann, M.. Is the C=O frequency shift a reliable indicator of coumarin binding to metal ions through the carbonyl oxygen?. Chemical Physics, 365, 1-2, Elsevier, 2009, ISSN:0301-0104, 69-79. ISI IF:1.652
Цитира се в:
1424. Dağlı, Ö., Köse, D.A., Şahin, O. and Şahin, Z.S. The synthesis and structural characterization of transition metal coordination complexes of coumarilic acid.(2017) Journal of Thermal
page 134/232
Analysis and Calorimetry, 128(3): 1373-1383., 2017 Линк
1425. Dağlı, Ö., Köse, D.A., Avcı, G.A. and Şahin, O., Novel mixed-ligand complexes of coumarilate/N, N′-diethylnicotinamide with some transition metals. (2017) Journal of Thermal Analysis and Calorimetry, 129(3):1389-1402., 2017 Линк
1426. Singh, G., Rani, S., Arora, A., Duggal, H. and Mehta, D. Organic-inorganic nano-hybrid decorated by copper (II) incarceration: A versatile catalytic assembly for the swift reduction of aromatic nitro and dye compounds. (2017) Molecular Catalysis, 431, pp.15-26., 2017 Линк
401. Stoyanova D., Nickolov, R., Khristova M., Paneva D., Mehandjiev D.. Catalytic activity of Fe/AC, obtained by impregnation of activated carbon in aqueous and non-aqueous media, to neutralize NO. Journal of Porous Materials, 16, 1, Elsevier, 2009, DOI:10.1007/s10934-007-9160-0, 1-7. ISI IF:1.3
Цитира се в:
1427. Zukhra Ch. Kadirova, Mirabbos Hojamberdiev, Ken-ichi Katsumata, Toshihiro Isobe, Nobuhiro Matsushita, Akira Nakajima, Kiyoshi Okada “ Fe2O3- loaded activated carbon fiber/polymer materials and their photocatalytic activity for methylene blue mineralization by combined heterogeneous-homogeneous photocatalytic processes”, Applied Surface Science , Vol. 402, pp 444-455, 2017 Линк
402. Georgieva, I., Benco, L., Tunega, D., Trendafilova, N., Hafner, J., Lischka, H.. Multiple adsorption of NO on cobalt-exchanged chabazite, mordenite, and ferrierite zeolites: A periodic density functional theory study. J. Chem. Phys., 131, 5, AIP Publishing, 2009, ISSN:1089-7690, 054101-1-054101-18. ISI IF:2.952
Цитира се в:
1428. Broclawik, E., Gora-Marek, K., Radoń, M., Bučko, T., Stępniewski, A., The dependence on ammonia pretreatment of N−O activation by Co(II) sites in zeolites: a DFT and ab initio molecular dynamics study, Journal of Molecular Modeling, 2017, 23:160, , 2017 Линк
403. Stanislava M. Andonova, Göksu S. Şentürk, Emine Kayhan, Emrah Ozensoy. Nature of the Ti−Ba Interactions on the BaO/TiO2/Al2O3 NOx Storage System. Journal of Physical Chemistry C, 113, 25, 2009, DOI:10.1021/jp9005026, 11014-11026. ISI IF:4.536
Цитира се в:
1429. J. Bing, et al., "Enhanced mineralization of pharmaceuticals by surface oxidation over mesoporous γ-Ti-Al2O3 suspension with ozone" Applied Catalysis B: Environmental, 202 (2017) 118-126., 2017 Линк
404. Koleva V., Stefov V., Cahil A., Najdoski M., Šoptrajanov B., Engelen B., Lutz H.. Infrared and Raman studies of manganese dihydrogen phosphate dihydrate, Mn(H2PO4)2•2H2O. Part II. Region of the internal OH group vibrations. Journal of Molecular Structure, 919, Elsevier, 2009, ISSN:0022-2860, 164-169. ISI IF:1.602
Цитира се в:
1430. Zhang Qingfang, Zeng Ming and Jiang Yinyan (2017). Application of Heuristic Method in Teaching on Hydrogen Bond. Chemistry Education, 37 (20) pp. 56-58., 2017 Линк
405. Yoncheva, M., Stoyanova, R., Zhecheva, E., Alcantara, R., Ortiz, G., Tirado, J. L.. Electrochemical performance and local cationic distribution in layered LiNi1/2Mn1/2O2 electrodes for lithium ion batteries. Electrochimica Acta, 54, 6, 2009, ISSN:0013-4686, 1694-1701. ISI IF:4.504
Цитира се в:
1431. Dillon, Shen J. Technical Report: "In-Situ TEM Observations of Degradation Mechanisms in Next-Generation High-Energy Density Lithium-Ion Battery Systems", Univ. of Illinois,
page 135/232
Urbana-Champaign, IL (United States), 2017 Линк
1432. Мария Лазарова Калъпсъзова, „Натриеви интеркалационни оксиди като катодни материали за екологични йонни батерии”, Докторска дисертация, 2017, Българска академия на науките, София (лит. 233)., 2017
406. Vassileva P., Tzvetkova P., Nickolov R.. Removal of ammonium ions from aqueous solutions with coal-based activated carbons modified by oxidation. Fuel, 88, 2009, 387-390. ISI IF:3.18
Цитира се в:
1433. Li, L., Yao, J., Fang, X., Huang, Y., & Mu, Y. (2017). Electrolytic ammonia removal and current efficiency by a vermiculite-packed electrochemical reactor. Scientific Reports 7, Article number:41030, 2017
1434. An, H., Liu, Z., Cao, X., Teng, J., Miao, W., Liu, J., ... & Li, P. (2017). Mesoporous lignite-coke as an effective adsorbent for coal gasification wastewater treatment. Environmental Science: Water Research & Technology, 3(1), pp. 169-174., 2017
1435. Vu, T. M., Doan, D. P., Van, H. T., Nguyen, T. V., Vigneswaran, S., & Ngo, H. H. (2017). Removing ammonium from water using modified corncob-biochar. Science of the Total Environment, 579, 612-619., 2017
1436. Khalil, A.M.E., Eljamal, O., Amen, T.W.M., Sugihara, Y., Matsunaga, N. Optimized nano-scale zero-valent iron supported on treated activated carbon for enhanced nitrate and phosphate removal from water. (2017) Chemical Engineering Journal, 309, pp. 349-365., 2017
1437. Bogdan, D., Muklive, A.-O.A.J., Ion, I., Ion, A.C., Ammonium adsorption on oxidized exfoliated graphite nanoplatelets, (2017) Environmental Engineering and Management Journal, 16 (3), pp. 543-552., 2017
1438. Tang, X.-P., Zhou, X., Zhang, J.-Y., Zhang, C., Wang, D.-Y., Experimental research of Hg2+ removal by TiO2 /bentonite composite, (2017) Huanjing Kexue/Environmental Science, 38 (2), pp. 608-615., 2017
407. Ivanova, S., Senyshin, A., Zhecheva, E., Tenchev, K., Nikolov, V., Stoyanova, R., Fuess, H.. Effect of the synthesis route on the microstructure and the reducibility of LaCoO3. Journal of Alloys and Compounds, 480, 2, 2009, ISSN:0925-8388, 279-285. ISI IF:2.999
Цитира се в:
1439. Özbay, N., Şahin, R.Z.Y., Preparation and characterization of LaMnO3 and LaNiO3 perovskite type oxides by the hydrothermal synthesis method (2017) AIP Conference Proceedings, 1809, art. no. 020040, DOI: 10.1063/1.4975455., 2017 Линк
408. Stayanova A.,, Iordanova, R., Mancheva, M., Dimitriev, Y.,. Synthesis and structural characterization of MoO3 phases obtained from molybdic acid by addition of HNO3 and H2O2. Journal of optoelectronics and advanced materials, 11, 8, 2009, 1127-1131. ISI IF:0.443
Цитира се в:
1440. Sachuk, Olena, et al. "Influence of Ultrasonic Treatment on the Properties of ZnO-MoO3 Oxide System." Chemistry & Chemical Technology 11, № 2 (2017): 152-157., 2017 Линк
1441. Kundu, Ranadip, et al. "Positron annihilation studies and complementary experimental characterization of x Ag 2 O–(1− x)(0.3 CdO–0.7 MoO 3) metal oxide glass nanocomposites." RSC Advances 7.14 (2017): 8131-8141., 2017 Линк
1442. Badr, A. M., et al. "Hydrothermal synthesis and influence of later heat treatment on the structural evolution, optical and electrical properties of nanostructured α-MoO3 single crystals." Journal of Physics D: Applied Physics 50.50 (2017): 505111., 2017 Линк
page 136/232
409. Radev, L., Fernandes, M.H.V., Salvado, I.M., Kovacheva, D.. Organic/inorganic bioactive materials part III: In vitro bioactivity of gelatin/silicocarnotite hybrids. Central European Journal of Chemistry, 7, 4, Central European Science Journals, 2009, ISSN:1895-1066, DOI:10.2478/s11532-009-0078-z, 721-730. ISI IF:1.164
Цитира се в:
1443. Portier, François, et al. "Stabilization of Collagen Fibrils by Gelatin Addition: A Study of Collagen/Gelatin Dense Phases." Langmuir 33 (45) (2017) 12916–12925., 2017 Линк
410. N.D. Yordanov, O. Lagunov, K. Dimov. EPR spectra induced by gamma-irradiation of some dry medical herbs. Radiation Physics and Chemistry, 78, 4, Elsevier, 2009, DOI:dx.doi.org/10.1016/j.radphyschem.2008.12.001, 277-280. SJR:0.54, ISI IF:1.248
Цитира се в:
1444. Concetta Boniglia, Brunella Carratù, Raffaella Gargiulo, Emanuela Bortolin, "Detection of Irradiated Herbal Ingredients of Plant Food Supplements by Thermoluminescence Technique", In book: Food Supplements Containing Botanicals: Benefits, Side Effects and Regulatory Aspects, pp.395-407, 2017 Линк
411. Koleva V., Stefov V., Cahil A., Najdoski M., Šoptrajanov B., Engelen B., Lutz H.. Infrared and Raman studies of manganese dihydrogen phosphate dihydrate, Mn(H2PO4)2•2H2O. I. Region of the vibrations of the phosphate ions and external modes of the water molecules. Journal of Molecular Structure, 917, Elsevier, 2009, ISSN:0022-2860, 117-124. ISI IF:1.602
Цитира се в:
1445. Zhang Qingfang, Zeng Ming and Jiang Yinyan (2017). Application of Heuristic Method in Teaching on Hydrogen Bond. Chemistry Education, 37 (20) pp. 56-58., 2017 Линк
1446. Zhou, Y., Liu, J., Huang, R., Zhang, M., Xiao, M., Meng, Y., & Sun, L. (2017). "Covalently immobilized ionic liquids on single layer nanosheets for heterogeneous catalysis applications". Dalton Transactions, 46(38), 13126-13134., 2017 Линк
412. A. Penkova, J.M. Martinez Blanes, S.A. Cruz, A.M. Centeno, Hadjiivanov , K., J.A. Odriozola. Gold Nanoparticles on Silica Monospheres Modified by Amino Groups. Microporous and Mesoporous Materials, 117, 3, Elsevier, 2009, DOI:doi:10.1016/j.micromeso.2008.07.041, 530-534. ISI IF:3.453
Цитира се в:
1447. L. Tarpani and L. Latterini, Plasmonic effects of gold colloids on the fluorescence behavior of dye-doped SiO2 nanoparticles, J. Luminesc., 185 (2017) 192-199, 2017 Линк
413. Bachvarova-Nedelcheva A., Dimitriev Y., Iordanova R.. Selenite glasses containing Ag+ and Cu2+ ions as modifiers. J. Univ. Chem. Technol. Metall., 44, 3, 2009, ISSN:1314-7471, 221-226. SJR:0.196
Цитира се в:
1448. Palui А. and Ghosh А., Mixed Glass Former Effect in Ag2O−SeO2−TeO2 Glasses: Dependence on Characteristic Displacement of Mobile Ions and Relative Population of Bond Vibrations, J. Phys. Chem., C 121 (16) (2017) pp. 8738−8745., 2017 Линк
414. Bojinov, V., Panova, I., Simeonov, D.. The synthesis of novel photostable fluorescein-based dyes containing s-triazine UV absorber and HALS units and their acrylonitrile copolymers. Dyes and Pigments, 83, 2, Elsevier, 2009, ISSN:0143-7208, DOI:10.1016/j.dyepig.2008.10.007, 135-143. ISI IF:3.966
Цитира се в:
1449. Wei Jin Ping. Ultraviolet absorbent’s physicochemical properties and effect on water
page 137/232
environment (College of Chemistry and Chemical Engineering, Northwest Normal University, Lanzhou, 730070)., 2017 Линк
415. Vassileva P., Voikova D.. Investigation on natural and pretreated Bulgarian clinoptilolite for ammonium ions removal from aqueous solutions. Journal of Hazardous Materials, 170, 2009, 948-953. ISI IF:4.14
Цитира се в:
1450. Jorfi, S., Ahmadi, M. J., Pourfadakari, S., Jaafarzadeh, N., Soltani, R. D. C., & Akbari, H. . Adsorption of Cr (VI) by Natural Clinoptilolite Zeolite from Aqueous Solutions: Isotherms and Kinetics. (2017) Polish Journal of Chemical Technology, 19(3), pp. 106-114, 2017
1451. Godini, H., Gh, S. K., Dargahi, A., Mohammadi, M., & Jalilian, Z. . Efficiency of Powder Activated Carbon Modified by Sulfuric Acid, Sodium Nitrate and Potassium Permanganate to Remove Ammonia Nitrogen from Aqueous Environment. (2017) Journal of Occupational and Environmental Health, 2(4), pp. 259-271., 2017
1452. Hosein Alidadi, Maryam Dolatabadi, Mmarjan Mehrabpour, Evaluation of Clinoptilolite Modified by Cationic Surfactant for Nitrate Removal from Aqueous Solutions (2017 ) Journal of Research in Environmental Health 3, (1) , pp. 21-29, 2017
1453. Lye, J.W.P., Saman, N., Sharuddin, S.S.N., Othman, N.S., Mohtar, S.S., Md Noor, A.M., Buhari, J., Cheu, S.C., Kong, H., Mat, H., Removal Performance of Tetracycline and Oxytetracycline From Aqueous Solution Via Natural Zeolites: An Equilibrium and Kinetic Study, (2017) Clean - Soil, Air, Water, 45 (10), art. no. 1600260, 2017
1454. Cheng, Y., Huang, T., Shi, X., Wen, G., Sun, Y., Removal of ammonium ion from water by Na-rich birnessite: Performance and mechanisms (2017) Journal of Environmental Sciences (China), 57, pp. 402-410., 2017
416. Alcantara, R., Ortiz, G., Tirado, J. L., Stoyanova, R., Zhecheva, E., Ivanova, Sv.. Fe3+ and Ni3+ impurity distribution and electrochemical performance of LiCoO2 electrode materials for lithium ion batteries. Journal of Power Sources, 194, 1, 2009, ISSN:0378-7753, 494-501. ISI IF:6.217
Цитира се в:
1455. Suzuki, S., Kozawa, T., Murakami, T., & Naito, M. (2017). Mechanochemical-hydrothermal synthesis of layered lithium titanate hydrate nanotubes at room temperature and their conversion to Li 4 Ti 5 O 12. Materials Research Bulletin, Volume 90, June 2017, Pages 218-223., 2017 Линк
417. Bozhkov, O., Tzvetkova, Chr.. Advantages of Rhenium Phytomining by Lucerne and Clover from Ore Dressing Soils. Proceedings Published by WSEAS press of the 7th International Conference on Environment, Ecosystems and Development(EED'09), Puerto De La Cruz, Tenerife, Canary Islands, Spain, 2009, ISBN:978-960-474-142-7, ISSN:1790-5095, 127-131
Цитира се в:
1456. Novo, L. A. B., Castro, P. M. L., Alvarenga, P., Ferreira da Silva, E. "Phytomining of rare and valuable metals". Phytoremediation, pp. 469-486, 2017, 2017
1457. Tabasi, S., Hassani, H. and Azadmehr, A. R.. "Phytoextraction-based process of metal absorption from soil in mining areas (tailing dams) by Medicago sativa L. (Alfalfa) (Case study: Sarcheshmeh porphyry copper mine, SE of Iran". Journal of Mining & Environment, Article 7, 8 (3), 419-431, 2017, 2017 Линк
418. Pekounov, Y., Chakarova, K., Hadjiivanov, K.. Surface acidity of amorphous calcium phosphate and calcium apatite: FTIR spectroscopic study of low-temperature CO adsorption. Materials Science and Engineering: C, 29, 2009, DOI:10.1016/j.msec.2008.10.011, 1178-1181. ISI IF:1.842
page 138/232
Цитира се в:
1458. N. L. D'Elia, N. Gravina, J. M. Ruso, J. L. Marco-Brown, J. M. Sieben, P. V. Messina, "Albumin-mediated deposition of bone-like apatite onto nano-sized surfaces: Effect of surface reactivity and interfacial hydration", Journal of Colloid and Interface Science, 494 (2017) 345-354., 2017 Линк
1459. A. Ivanova, “Hydroxyapatite-based coatings deposited by radio frequency magnetron sputtering”, Ph.D. Thesis, Universiteit Gent, Gent, Belgium, National Research Tomsk Polytechnic University, Tomsk, Russia, 2017., 2017 Линк
419. Uzunova E, Mikosch H, Hafner J. Theoretical Study of Transition Metal Cation Exchanged Zeolites: Interaction with NO. Theochem, 912, Elsevier, 2009, ISSN:0166-1280, 88-97. ISI IF:1.37
Цитира се в:
1460. Terzić, A., Pezo, L., Andrić, L. Chemometric assessment of mechano-chemically activated zeolites for application in the construction composites (2017) Composites Part B: Engineering, 109, pp. 30-44., 2017 Линк
420. Markova-Velichkova, M., Iordanova, R.. Fast synthesis of the polycrystalline materials on the base of Zn3V2MoO11 and Zn2.5VMoO8. Processing and Application of Ceramics, 3, 4, 2009, 181-185
Цитира се в:
1461. S. Bhattacharya, A. Sundar Das, M. Roy, D. Roy. "Formation of nano-phases and study of transition metal oxide doped glassy systems". Journal of Non-Crystalline Solids Volume 460, 15 March 2017, Pages 29-35, 2017
2010
421. Amalraj, S.F., Kovacheva, D., Talianker, M., Zeiri, L., Grinblat, J., Leifer, N., Goobes, G., Markovsky, B., Aurbach, D.. Synthesis of Integrated Cathode Materials xLi2MnO3⋅(1− x) LiMn1/3Ni1/3Co1/3O2 (x= 0.3, 0.5, 0.7) and Studies of Their Electrochemical Behavior. Journal of the Electrochemical Society, 157, 10, 2010, ISSN:0013-4651, DOI:10.1149/1.3463782, A1121-A1130. ISI IF:3.266
Цитира се в:
1462. Dong, H., Koenig, G.M., Jr. Compositional control of precipitate precursors for lithium-ion battery active materials: Role of solution equilibrium and precipitation rate (2017) Journal of Materials Chemistry A, 5 (26), pp. 13785-13798., 2017 Линк
1463. Darr, Jawwad A., et al. "Continuous Hydrothermal Synthesis of Inorganic Nanoparticles: Applications and Future Directions." Chemical Reviews 117.17 (2017): 11125-11238., 2017 Линк
1464. Nayak, Prasant Kumar, et al. "Understanding the influence of Mg doping for the stabilization of capacity and higher discharge voltage of Li-and Mn-rich cathodes for Li-ion batteries." Physical Chemistry Chemical Physics 19.8 (2017): 6142-6152., 2017 Линк
1465. Maddukuri, Satyanarayana, Pralong Valerie, and Varadaraju V. Upadhyayula. "Synthesis and Electrochemical Study of New P3 Type Layered Na0. 6Ni0. 25Mn0. 5Co0. 25O2 for Sodium‐Ion Batteries." ChemistrySelect 2.20 (2017): 5660-5666., 2017 Линк
1466. Erickson, Evan M., et al. "High‐Temperature Treatment of Li‐Rich Cathode Materials with Ammonia: Improved Capacity and Mean Voltage Stability during Cycling." Advanced Energy Materials (2017) 1700708., 2017 Линк
1467. Erickson, Evan M., et al. "Enhanced capacity and lower mean charge voltage of Li-rich cathodes for lithium ion batteries resulting from low-temperature electrochemical activation." RSC Advances 7.12 (2017): 7116-7121., 2017 Линк
page 139/232
1468. Wang, Meng, et al. "Electrochemical deintercalation kinetics of 0.5 Li 2 MnO 3· 0.5 LiNi 1/3 Mn 1/3 Co 1/3 O 2 studied by EIS and PITT." Journal of Alloys and Compounds 696 (2017): 907-913., 2017 Линк
1469. Duraisamy, Shanmughasundaram, et al. "Porous, hollow Li1. 2Mn0. 53Ni0. 13Co0. 13O2 microspheres as a positive electrode material for Li-ion batteries." Journal of Solid State Electrochemistry 21.2 (2017): 437-445., 2017 Линк
1470. Shi, Shaojun, et al. "Full microwave synthesis of advanced Li-rich manganese based cathode material for lithium ion batteries." Journal of Power Sources 337 (2017): 82-91., 2017 Линк
1471. Senćanski, Jelena, et al. "The synthesis of Li (Co Mn Ni) O 2 cathode material from spent-Li ion batteries and the proof of its functionality in aqueous lithium and sodium electrolytic solutions." Journal of Power Sources 342 (2017): 690-703., 2017 Линк
1472. Zhao, Jianqing, et al. "Structural Transformation of Li-Excess Cathode Materials via Facile Preparation and Assembly of Sonication-Induced Colloidal Nanocrystals for Enhanced Lithium Storage Performance." ACS Applied Materials & Interfaces 9.36 (2017): 31181-31191., 2017 Линк
1473. Zheng, Yu, et al. "An interfacial framework for breaking through the Li-ion transport barrier of Li-rich layered cathode materials." Journal of Materials Chemistry A 5.46 (2017): 24292-24298., 2017 Линк
1474. Xia, Yang, et al. "Synthesis and electrochemical properties of LiMnPO 4-modified Li [Li 0.2 Mn 0.534 Co 0.133 Ni 0.133] O 2 cathode material for Li-ion batteries." Electrochimica Acta 235 (2017): 1-9., 2017 Линк
1475. Zeng, Jiong, et al. "Enhanced Lithium Diffusion of Layered Lithium-Rich oxides with LixMn1. 5Ni0. 5O4 Nanoscale Surface Coating." Electrochimica Acta 247 (2017): 617-625., 2017 Линк
1476. Pan, Wei, et al. "Effect of molybdenum substitution on electrochemical performance of Li [Li0. 2Mn0. 54Co0. 13Ni0. 13] O2 cathode material." Ceramics International 43.17 (2017): 14836-14841., 2017 Линк
1477. Wu, Feng, et al. "Hierarchical microspheres and nanoscale particles: Effects of morphology on electrochemical performance of Li 1.2 Mn 0.54 Ni 0.13 Co 0.13 O 2 cathode material for lithium-ion batteries." Solid State Ionics 300 (2017): 149-156., 2017 Линк
1478. Guo, Bing, et al. "Aluminum and fluorine co-doping for promotion of stability and safety of lithium-rich layered cathode material." Electrochimica Acta 236 (2017): 171-179., 2017 Линк
1479. Kaewmala, Songyoot, et al. "Li 2 MnO 3 domain size and current rate dependence on the electrochemical properties of 0.5 Li 2 MnO 3· 0.5 LiCoO 2 cathode material." Scientific Reports 7.1 (2017): 13196., 2017 Линк
1480. He, Zhenjiang, et al. "Optimally designed interface of lithium rich layered oxides for lithium ion battery." Journal of Alloys and Compounds 708 (2017): 1038-1045., 2017 Линк
1481. Pham, Hieu Quang, et al. "Toward 5 V Lithium‐Ion Battery: Exploring the Limit of Charge Cut‐off Voltage of Li‐Rich Layered Oxide Cathode and High‐Voltage Interfacial Processes." Advanced Materials Interfaces (2017) 1700483., 2017 Линк
422. Stoyanova, R., Barra, A. L., Yoncheva, M., Zhecheva, E., Shinova, E., Tzvetkova, P., Simova, S.. High-frequency electron paramagnetic resonance analysis of the oxidation state and local structure of Ni and Mn Ions in Ni, Mn-Codoped LiCoO2. Inorganic Chemistry, 49, 4, 2010, ISSN:0020-1669, 1932-1941. ISI IF:4.762
Цитира се в:
1482. Hoang, K. (2017). First-principles theory of doping in layered oxide electrode materials,
page 140/232
Journal-ref: Phys. Rev. Materials 1, 075403 (2017); arXiv preprint arXiv:1710.09895., 2017 Линк
1483. Tang, M., Dalzini, A., Li, X., Feng, X., Chien, P. H., Song, L., & Hu, Y. Y. (2017). Operando EPR for Simultaneous Monitoring of Anionic and Cationic Redox Processes in Li-Rich Metal Oxide Cathodes. The journal of physical chemistry letters, 8(17), 4009-4016., 2017 Линк
1484. Jakes, P., Kröll, L., Ozarowski, A., Tol, J. V., Mikhailova, D., Ehrenberg, H., & Eichel, R. A. (2017). Coordination of the Mn4+-Center in Layered Li [Co0. 98Mn0. 02] O2 Cathode Materials for Lithium-Ion Batteries. Zeitschrift für Physikalische Chemie, 231(4), 905-922., 2017 Линк
423. Gentscheva, G., Stafilov, Tr., Ivanova, E.. Determination of some essential and toxic elements in herbs from Bulgaria and Macedonia using atomic spectrometry. Eurasian Journal of Analytical Chemistry, 5, 2, 2010, 104-111
Цитира се в:
1485. Popović S, A. Pantelić, Ž. Milovanović, J. Milinkov, M. Vidović (2017) Analysis of Tea for Metals by Flame and Graphite Furnace Atomic Absorption Spectrometry with Multivariate Analysis, Analytical Letters, 50 (16) 2619-2633, 2017 Линк
1486. Haidu D, D. Párkányi, R. I. Moldovan, C. Savii, I. Pinzaru, Cr. Dehelean, L. Kurunczi, (2017) Elemental characterization of Romanian crop medicinal plants by Neutron Activation Analysis, Journal of Analytical Methods in Chemistry, Volume 2017 (2017), Article ID 9748413, 12 pages., 2017 Линк
424. Spassova I., Velichkova N., Khristova M., Georgescu V.. NO reduction with CO on Cu-Cr and Co-Cr oxide catalysts supported on Al2O3 and Al2O3+SiO2. Reaction Kinetics Mechanism and Catalysis, 101, 2010, 321-330. ISI IF:1.108
Цитира се в:
1487. Liu, K., Yu, Q., Liu, J., Wang, K., Han, Z., Xuan, Y., & Qin, Q. (2017). Selection of catalytically active elements for removing NO and CO from flue gas at low temperatures. New Journal of Chemistry, 41(22), 13993-13999., 2017 Линк
425. Ivanova, S., Senyshyn, A., Zhecheva, E., Tenchev, K., Stoyanova, R., Fuess, H.. Crystal structure, microstructure and reducibility of LaNixCo1-xO3 and LaFexCo1-xO3 Perovskites (0<x≤0.5). Journal of Solid State Chemistry, 183, 4, 2010, ISSN:0022-4596, 940-950. ISI IF:2.133
Цитира се в:
1488. Fares, A., Barama, A., Barama, S., FodilCherif, N., & Chelaghmia, M. L. (2017). Synthesis and Characterization of Ba0. 5Sr0. 5NixCo0. 8‐xFe0. 2O3‐δ (x = 0 and 0.2) Perovskites as Electro‐catalysts for Methanol Oxidation in Alkaline Media. Electroanalysis, 29(10), 2323-2331., 2017 Линк
1489. Chávez-Guerrero, L., Hinojosa-Rivera, M., Medina-Lott, B., Vannier, R. N., Ringuedé, A., & Cassir, M. (2017). Synthesis and characterization of Co-doped Lanthanum Nickelate perovskites for solid oxide fuel cell cathode material. Revista Mexicana de Física, 63(1), 6-11., 2017 Линк
1490. LIU Feng-Xiang, MA Hong-Wei, LI Zhan-Ping…, Competitive Occupying of Fe3 + and Co3 + Ions into the Lattice B-Sites of Perovskite Crystalline Structure. Structure Chemistry, 36 (2) (2017) 217-228., 2017 Линк
1491. Пекінчак, Ольга Володимирівна, Modification of the structure and properties of functional materials based on cobaltites RCoO3 (R = Pr–Tb), 2017.; Dissertation., 2017
426. Kostov, K.L., Nathaniel, R., Mineva, T., Widdra, W.. Vibrational characterization of ethylene adsorption
page 141/232
and its thermal evolution on Si(001)-(2×1): Identification of majority and minority species. Journal of Chemical Physics, 133, 5, AIP Publishing, 2010, DOI:10.1063/1.3469974, 054705 (1)-054705 (10. ISI IF:2.952
Цитира се в:
1492. Carbone, M., "Small molecules adsorbed on silicon surfaces: two cases through time". Surface Review and Letters, p.1830001, 2017, 2017 Линк
427. Rabadjieva, D, Gergulova, R, Titorenkova, R, Tepavitcharova, S, Dyulgerova, E, Balarew, C, Petrov, O. Biomimetic transformations of amorphous calcium phosphate: Kinetic and thermodynamic studies. Journal of Materials Science: Materials in Medicine, 21, 9, Springer US, 2010, ISSN:0957-4530, DOI:10.1007/s10856-010-4103-8, 2501-2509. ISI IF:2.587
Цитира се в:
1493. Morteza Rasoulianboroujeni, Mostafa Yazdimamaghani, Payam Khoshkenar, Venkata Raveendra Pothineni, Kwang Min Kim, Teresa A. Murray, Jayakumar Rajadas, David K. Mills, Daryoosh Vashaee, Keyvan Moharamzadeh, Lobat Tayebi “From Solvent-Free Microspheres to Bioactive Gradient Scaffolds” . Nanomedicine, 13(3), pp 1157-1169, 2017, 2017 Линк
1494. R. Alexandrova, D. Kadijsky, Proceedings of the XIth Workshop with International Electronic Participation on Biological Activity of Metals, Synthetic Compounds and Natural Products, December 14-15, 2016, • June 2017, DOI: 10.13140/RG.2.2.21342.43845, 2017 Линк
1495. Vecstaudza, Jana; Locs, Janis, Novel preparation route of stable amorphous calcium phosphate nanoparticles with high specific surface area, JOURNAL OF ALLOYS AND COMPOUNDS, 2017, 700, pp. 215-222, 2017 Линк
428. Tsvetkova, T., Balabanov, S., Bischoff, L., Krastev, V., Stefanov, P., Avramova, I.. X-ray photoelectron study of Si+ ion implanted polymers. Journal of Physics: Conference Series, 253, 1, 2010, ISSN:1742-6588, 012070. SJR:0.217, ISI IF:0.303
Цитира се в:
1496. Grigaliūnas, V., Jucius, D., Lazauskas, A., Andrulevičius, M., Sakaliūnienė, J., Abakevičienė, B., Kopustinskas, V., Smetona, S., Tamulevičius, S. Effects of 3D microlens transfer into fused silica substrate by CF4/O2 dry etching (2017) Applied Surface Science, 393, pp. 287-293., 2017 Линк
429. Sachert, S.,, Polzin, S., Kostov, K., Widdra, W.. Thickness dependent vibrational and electronic properties of MnO(100) thin films grown on Pt(111). Physical Review B, 81, 19, American Physical Society, 2010, DOI:10.1103/PhysRevB.81.195424, 195424 (1)-195424 (8). ISI IF:3.736
Цитира се в:
1497. Chen, Z., Mao, Y., Chen, J., Wang, H., Li, Y. and Hu, P., Understanding the dual active sites of FeO/Pt (111) interface and reaction kinetics: A density functional theory study on methanol oxidation to formaldehyde. ACS Catalysis, 2017, 7 (7), pp 4281–4290., 2017 Линк
1498. Doudin, N., Kuhness, D., Blatnik, M., Netzer, F.P. and Surnev, S., Phase behaviour of 2D MnWO x and FeWO x ternary oxide layers on Pd (1 0 0). Journal of Physics: Condensed Matter, 29(23), p.234004, 2017, 2017 Линк
430. MIntcheva, N., Tanabe, M., Osakada, K., Georgieva, I., Mihaylov, Tz., Trendafilova, N.. Synthesis and characterization of a dinuclear platinum complex with silsesquioxanate ligand. Journal of Organometallic Chemistry, 695, Elsevier, 2010, 1738-1743. ISI IF:2.173
page 142/232
Цитира се в:
1499. Jian Ouyang, Sun Haotian, Yali Liang, Alex Commisso, Dan Li, Riwei Xu, Dingsheng Yu, Recent Progress in Metal-containing Silsesquioxanes: Preparation and Application, Current Organic Chemistry, Current Organic Chemistry (2017) 21(28), pp. 2829-2848, 2017 Линк
431. Georgiev, M., Marinova, D., Stoilova, D.. Infrared spectroscopic study of Tutton compounds. I. Vibrational behavior of SO42- ions included in Me2'Me''(SeO4)2.6H2O (Me' = K, NH4+; Me'' = Mg, Co, Ni, Cu, Zn). Journal of Chemical Technology and Metallurgy, 45, 1, University of Chemical Technology and Metallurgy, 2010, ISSN:1314-7471, 75-82. SJR:0.331
Цитира се в:
1500. Souamti, A., Martín, I. R., Zayani, L., Lozano-Gorrín, A. D., & Chehimi, D. B. H. (2017). Luminescence properties of Pr 3+ ion doped Mg-picromerite Tutton salt. Journal of Luminescence, 188, 148-153., 2017 Линк
432. Georgiev, M., Wildner, M., Marinova, D., Stoilova, D.. Preparation, crystal structure and infrared spectroscopy of the new compound Rb4Be(SeO4)2(HSeO4)2.4H2O. Solid State Sciences, 12, Elsevier, 2010, ISSN:1293-2558, DOI:doi:10.1016/j.solidstatesciences.2010.01.034, 899-905. SJR:0.639, ISI IF:1.061
Цитира се в:
1501. Shen, C., Mei, D., Sun, C., Liu, Y., & Wu, Y. (2017). Hydrothermal Synthesis and Crystal Structures of Na2Be3 (SeO3) 4· H2O and Cs2 [Mg (H2O) 6] 3 (SeO3) 4. Zeitschrift für anorganische und allgemeine Chemie, 643(16), 1082-1087., 2017 Линк
433. Kaneva, N., Stambolova, I., Blaskov, V., Dimitriev, Y., Vassilev, S., Dushkin, C.. Photocatalytic activity of nanostructured ZnO films prepared by two different methods for the photoinitiated decolorization of malachite green. Journal of Alloys and Compounds, 2010, ISI IF:2.716
Цитира се в:
1502. C Kulsi et al., Remarkable photo-catalytic degradation of malachite green by nickel doped bismuth selenide under visible light irradiation, Applied Surface Science Volume 392, 2017, Pages 540-548, 2017
1503. L. Xu et al., Tunable nanoporosity in Sr-doped ZnO thin films by thermal annealing treatment and its effect on photocatalytic activity, Journal of optolectronics and adv. materials, Vol. 19, No. 1 - 2, 2017, p. 96 - 101, 2017
1504. NP Raval et al., , Malachite green “a cationic dye” and its removal from aqueous solution by adsorption, Applied Water Science, 2017, , Volume 7, Issue 7, pp 3407–3445, 2017
434. Drenchev, N., Ivanova, E., Mihaylov, M., Hadjiivanov, K.. CO as an IR Probe Molecule for Characterization of Copper Ions in a Basolite C300 MOF Sample. Phys. Chem. Chem. Phys., 12, 2010, DOI:10.1039/c000949k, 6423-6427. ISI IF:4.493
Цитира се в:
1505. J. Hou, Y. Luan, X. Huang, H. Gao, M. Yang and Y. Lu, Facile synthesis of Cu3(BTC)2/cellulose acetate mixed matrix membranes and their catalytic applications in continuous flow process, New J. Chem., 41 (17), (2017), pp. 9123-9129 [ISI], 2017 Линк
1506. L.H.H. Wee, M. Meledina, S. Turner, G. Van Tendeloo, K. Zhang, L.M. Rodriguez-Albelo, A. Masala, S. Bordiga, J. Jiang, J.A.R. Navarro, C.E.A. Kirschhock and J.A. Martens, 1D-2D-3D Transformation Synthesis of Hierarchical Metal-Organic Framework Adsorbent for Multicomponent Alkane Separation, J. Am. Chem. Soc., 139 (2), (2017 ), pp. 819–828 [ISI], 2017 Линк
page 143/232
1507. K. Vellingiri, P. Kumar, A. Deep and K..-H. Kim, "Metal-organic frameworks for the adsorption of gaseous toluene under ambient temperature and pressure", Chem. Eng. J., 307, (2017), pp. 1116-1126 [ISI], 2017 Линк
1508. S. M. J. Rogge, A. Bavykina, J. Hajek, H. Garcia, A.I. Olivos-Suarez, A. Sepulveda-Escribano, A. Vimont, G. Clet, P. Bazin, F. Kapteijn, M. Daturi, E.V. Ramos-Fernandez, F.X. Llabres i Xamena, V. Van Speybroeck and J. Gascon, Metal–organic and covalent organic frameworks as single-site catalysts, Chem. Soc. Rev., 46 (11), (2017), pp. 3134-3184 [ISI]., 2017 Линк
1509. X. Yang, Y. Zhang, F. Li, T. Guo, Y. Wu, F. Jin, M. Fang, Y. Lan, Y. Li, Y. Zhou and Z. Zou, "Theoretical and experimental studies on three water-stable, isostructural, paddlewheel based semiconducting metal–organic frameworks", Dalton Trans., 46 (2017) 8204 (SI), 2017 Линк
1510. S. Chaemchuen, Z. Luo, K. Zhou, B. Mousavi, S. Phatanasri, M. Jaroniec and F. Verpoort, Defect formation in metal–organic frameworks initiated by the crystal growth-rate and effect on catalytic performance, J. Catal., 354, (2017), pp. 84-91 [ISI]., 2017 Линк
435. Radev D. D.. Mechanical Synthesis of Nanostructured Titanium-Nickel Alloys. Advanced Powder Technology, 21, 4, 2010, ISSN:0921-8831, DOI:10.1016/j.apt.2010.01.010, 477-482. ISI IF:2.638
Цитира се в:
1511. Latifa Kahloul, Hacene Chadli, Alex Montagne, Alain Iost, Isabel Hervas, Effet de la température de frittage sur le comportement mécanique et tribologique de l’alliage TiNi poreux, Effect of sintering temperature on the mechanical and tribological behavior of porous TiNi alloy, Matériaux & Techniques 105, 404, 2017 Линк
1512. Reyes, Luis, et al. "Synthesis of TiNi by a green method." Bioinspired, Biomimetic and Nanobiomaterials (2017): 1-28., 2017 Линк
1513. Oliveira, Leonardo Soares de. Metaestabilidade Estrutural do Sistema Ni-Ti-Ge Induzida por Mechanical Alloying, 2017 Линк
436. Uzunova S., Uzunov I., Vassilev S., Alexandrova A., Staykov S.. Preparation of Low-Ash-Content Porous Carbonaceous Material from Rice Husks. Bulgarian Chemical Communications, 42, 2, 2010, ISSN:0324-1130, 130. SJR:0.16, ISI IF:0.238
Цитира се в:
1514. Gabriela P. S. Maciel , Eliane Lazzari , Thiago Bjerk , Samir M. Ahmad , Ana P. Carvalho , José M. F. Nogueira , Elina B. Caramão, Trace Analysis of Carbazole in Commercial Diesel by using Adsorption on Activated Biochar from Rice Husk Pyrolysis, International Journal of Engineering Research & Science (IJOER), 3 (8) (2017) 46-57, 2017
437. Marinova, D., Georgiev, M., Stoilova, D.. Vibrational behavior of matrix-isolated ions in Tutton compounds. V. Infrared spectroscopic study of NH4+ and SO42- ions included in zinc sulfates and selenates. Solid State Sciences, 12, Elsevier, 2010, ISSN:1293-2558, DOI:doi:10.1016/j.solidstatesciences.2010.02.023, 765-769. SJR:0.639, ISI IF:1.061
Цитира се в:
1515. Souamti, A., Zayani, L., Lozano-Gorrín, A. D., Chehimi, D. B. H., & Palomino, J. M. (2017). Synthesis, characterization and thermal behavior of new rare earth ion-doped picromerite-type Tutton’s salts. Journal of Thermal Analysis and Calorimetry, 128(2), 1001-1008., 2017 Линк
438. Georgiev, M., Marinova, D., Stoilova, D.. Vibrational behavior of matrix-isolated ions in Tutton compounds. III. Infrared spectroscopic study of NH4+ and SO42- ions included in cobalt sulfates and selenates. Vibrational Spectroscopy, 53, Elsevier, 2010, ISSN:0924-2031,
page 144/232
DOI:doi:10.1016/j.vibspec.2010.03.014, 233-238. SJR:0.491, ISI IF:1.173
Цитира се в:
1516. Souamti, A., Martín, I. R., Zayani, L., Lozano-Gorrín, A. D., & Chehimi, D. B. H. (2017). Luminescence properties of Pr 3+ ion doped Mg-picromerite Tutton salt. Journal of Luminescence, 188, 148-153., 2017 Линк
439. Atanasova, G., Guergova, D., Stoychev, D., Radic, N., Grbic, B., Stefanov, P.. Preparation and Characterization of Al2O3 Thin Films for Catalytic Activity Studies. Solid State Phenomen, 159, 2010, ISSN:1662-9779, DOI:10.4028/www.scientific.net/SSP.159.91, 91-96. SJR:0.254
Цитира се в:
1517. Karsten Henkel, Malgorzata Kot and Dieter Schmeißer, Localized defect states and charge trapping in atomic layer deposited-Al2O3 films, Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 35, 01B125 (2017); https://doi.org/10.1116/1.4971991, 2017
1518. Juan Francisco Miñambres Redondo, Estudio de la reduccion de Meerwein-Ponndorf-Verley de crotonaldehído sobre oxidos de zirconio modificados: actividad catalítica y desactivacion, 2013, UNIVERSIDAD DE CÓRDOBA Facultad de Ciencias Departamento de Química Orgánica, http://hdl.handle.net/10396/10759, 2017
440. Zhecheva, E., Stoyanova, R., Ivanova, S., Nikolov, V.. On the preparation of nanosized Al2(WO4)3 by a precipitation method. Solid State Sciences, 12, 12, Elsevier, 2010, ISSN:1293-2558, DOI:10.1016/j.solidstatesciences.2010.08.018, 2010-2014. SJR:0.639, ISI IF:1.839
Цитира се в:
1519. Prisco, L. P., Rizzo, F., & Marinkovic, B. A. (2017). Síntese de pos nanometricos do Al2Mo3O12 para otimização de seu coeficiente de expansão térmica na forma maciça. Cadernos UniFOA, 7(2 (Esp.)), 67-75., 2017 Линк
441. Tzvetkova P., Vassileva P., Nickolov R.. Modified silica gel with 5-amino-1,3,4-thiadiazole-2-thiol for heavy metal ions removal. Journal of Porous Materials, 2010, ISI IF:1.32
Цитира се в:
1520. Li, C., Huang, S., Min, C., Du, P., Xia, Y., Yang, C., Huang, Q., Highly productive synthesis, characterization, and fluorescence and heavy metal ion adsorption properties of poly(2, 5-dimercapto-1, 3, 4- thiadiazole) nanosheets, (2017) Polymers, 10 (1), art. no. 24, 2017
1521. Irannajad, M., & Haghighi, H. K. (2017). Removal of Co2+, Ni2+, and Pb2+ by manganese oxide-coated zeolite: Equilibrium, thermodynamics, and kinetics studies. Clays and Clay Minerals, 65(1), pp.52-62., 2017
442. Georgieva, I., Aquino, A.J.A., Trendafilova, N., Santos, P. S., Lischka,. Solvatochromic and ionochromic effects of iron(II)bis(1,10-phenanthroline)-dicyano: A theoretical study. Inorganic Chemistry, 49, 4, ACS, 2010, DOI:10.1021/ic9020299, 1634-1646. ISI IF:4.762
Цитира се в:
1522. Glibin, V.P., Dodelet, J.P., Thermodynamic Stability in Acid Media of FeN4-Based Catalytic Sites Used for the Reaction of Oxygen Reduction in PEM Fuel Cells, Journal of Electrochemical Society, 2017, vol. 164, issue 9, pp. F948-F957. doi: 10.1149/2.1041709jes, , 2017 Линк
443. Koleva, V., Stoyanova, R., Zhecheva, E.. Nano-crystalline LiMnPO4 prepared by a new phosphate-formate precursor method. Materials Chemistry and Physics, 12, 1-2, 2010, ISSN:0254-0584, 370-377.
page 145/232
ISI IF:2.259
Цитира се в:
1523. Yamada, T., Zettsu, N., Nozaki, S., & Teshima, K. (2017). Growth of idiomorphic LiMnPO 4 crystals in molten NaCl–KCl and LiF–NaCl–KCl fluxes. CrystEngComm, 19(1), 93-98., 2017 Линк
1524. Örnek, A. (2017). Influences of different reaction mediums on the properties of high-voltage LiNiPO 4 C cathode material in terms of dielectric heating efficiency. Electrochimica Acta, 258, Pages 524-534., 2017 Линк
1525. Örnek, A. (2017). Optimization of dielectric heating parameters in the production of high‐voltage LiNiPO4‐core and carbon‐shell ceramics. Journal of the American Ceramic Society, Volume 100, Issue 12, Pages 5668–5680., 2017 Линк
1526. Таня Йорданова Бояджиева, Метални фосфати като електродни материали в алкални йонни батерии, Докторска дисертация, Българска академия на науките, София, 2017, лит. 169., 2017 Линк
444. Nikolov, P., Genov, K., Konova, P., Milenova, K., Batakliev, T., Georgiev, V, Kumar, N., Sarker, D., Pishev, D., Rakovsky, S.. Ozone decomposition on Ag/SiO2 and Ag/clinoptilolite catalysts at ambient temperature. JOURNAL OF HAZARDOUS MATERIALS, 184, 1-3, Elsevier, 2010, DOI:10.1016/j.jhazmat.2010.07.056, 16-19. SJR:1.677, ISI IF:4.529
Цитира се в:
1527. Rakitskaya, T. L., Kiose, T. A., Golubchik, K. O., Ennan, A. A., & Volkova, V. Y., Acid-modified clinoptilolite as a support for palladium–copper complexes catalyzing carbon monoxide oxidation with air oxygen, Chemistry Central Journal, (2017), 11(1), 28. doi: 10.1186/s13065-017-0256-6, 2017
1528. Zhu, G., Zhu, J., Jiang, W., Zhang, Z., Wang, J., Zhu, Y., & Zhang, Q., Surface oxygen vacancy induced α-MnO 2 nanofiber for highly efficient ozone elimination. Applied Catalysis B: Environmental, 209, 729-737, 2017., 2017
1529. Gopi, T., Swetha, G., Shekar, S. C., Ramakrishna, C., Saini, B., Krishna, R., & Rao, P. V. L. Catalytic decomposition of ozone on nanostructured potassium and proton containing δ-MnO2 catalysts, Catalysis Communications, 92, 2017, 51-55. https://doi.org/10.1016/j.catcom.2017.01.002, 2017
1530. Wu, F., Wang, M., Lu, Y., Zhang, X., & Yang, C. Catalytic removal of ozone and design of an ozone converter for the bleeding air purification of aircraft cabin. Building and Environment, Volume 115, 2017, Pages 25–33., 2017 Линк
1531. Yang Liu and Pengyi Zhang, “Removing Surface Hydroxyl Groups of Ce-Modified MnO2 To Significantly Improve Its Stability for Gaseous Ozone Decomposition”, J. Phys. Chem. C, 2017, 121 (42), pp 23488–23497, DOI: 10.1021/acs.jpcc.7b07931, 2017
1532. Gennaro A. Dichello, Dipak K. Sarker, Nanostructures for Antimicrobial Therapy A volume in Micro and Nano Technologies 2017, Pages 597–622 Chapter 27 – Encapsulation of Lethal, Functional, and Therapeutic Medicinal Nanoparticles and Quantum Dots for the Improved Diagnosis and Treatment of Infection. https://doi.org/10.1016/B978-0-323-46152-8.00027-5, 2017
445. Emine Kayhan, Stanislava M. Andonova, Göksu S. Şentürk, Charles C. Chusuei, Emrah Ozensoy. Fe Promoted NOx Storage Materials: Structural Properties and NOx Uptake. Journal of Physical Chemistry C, 114, 1, 2010, DOI:10.1021/jp907982q, 357-369. ISI IF:4.536
Цитира се в:
1533. L. Chen, et al., "Removal of NOX Using Hydrogen Peroxide Vapor over Fe/TiO2 Catalysts
page 146/232
and an Absorption Technique" Catalysts 7(12) (2017) 386., 2017 Линк
446. Stoyanova, R., Carlier, D., Sendova-Vassileva, M., Yoncheva, M., Zhecheva, E., Nihtianova, D., Delmas, C.. Stabilization of over-stoichiometric Mn4+ in layered Na2/3MnO2. Journal of Solid State Chemistry, 183, 6, 2010, ISSN:0022-4596, 1372-1379. ISI IF:2.133
Цитира се в:
1534. Zhang, J., Yu, D.Y.W. "Phase-Pure P2-Na0.7(1−x)[LixMn1−x]Oδ as a Cathode Material for Na-Ion Batteries". ChemElectroChem, 4 (6), pp. 1287-1294, 2017, 2017 Линк
1535. Hwang, J. Y., Myung, S. T., & Sun, Y. K. (2017). Sodium-ion batteries: present and future. Chemical Society Reviews, 46, pp. 3529-3614., 2017 Линк
1536. Kumakura, S., Tahara, Y., Sato, S., Kubota, K., & Komaba, S. (2017). P′ 2-Na2/3Mn0. 9Me0. 1O2 (Me = Mg, Ti, Co, Ni, Cu, and Zn): Correlation between Orthorhombic Distortion and Electrochemical Property. Chemistry of Materials, 29(21), 8958-8962., 2017 Линк
1537. Kwon, M. S., Lim, S. G., Park, Y., Lee, S. M., Chung, K. Y., Shin, T. J., & Lee, K. T. (2017). P2 Orthorhombic Na0. 7 [Mn1–x Li x] O2+ y as Cathode Materials for Na-Ion Batteries. ACS Applied Materials & Interfaces, 9(17), 14758-14768., 2017 Линк
1538. Li, X., Jia, X., Ma, J., Xu, Y., Huang, Y., & Xu, J. (2017). Catalytic Amidation of 5‐Hydroxymethylfurfural to 2, 5‐Furandicarboxamide over Alkali Manganese Oxides. Chinese Journal of Chemistry, Volume 35, Issue 6, June, 2017, Pages 984–990., 2017 Линк
1539. Мария Лазарова Калъпсъзова, „Натриеви интеркалационни оксиди като катодни материали за екологични йонни батерии”, Докторска дисертация, 2017, Българска академия на науките, София (лит. 154)., 2017
1540. Elahe Talaie, Patrick Bonnick, Xiaoqi Sun, Quan Pang, Xiao Liang, and Linda F. Nazar, Methods and Protocols for Electrochemical Energy Storage Materials Research, Chem. Mater., 2017, 29 (1), pp 90–105., 2017 Линк
447. Krapchanska M., Iordanova R., Dimitriev Y., Bachvarova-Nedelcheva A.. Glass formation in the system MoO3-Bi2O3-TiO2. J. Optoel. Adv. Mater., 12, 8, 2010, ISSN:1454 - 4164, 1692-1695. ISI IF:0.449
Цитира се в:
1541. Goumeidane F., Iezid M., Melik B., Ouannes K., Legouerac M., Poulain M., Satyanarayana T., Syam Prasad P., Venkateswara Rao P., Influence of molybdenum oxide on structural, optical and physical properties of oxychloride glasses for nonlinear optical devices, Ceramics International, 43 (2017) 11305-11311., 2017 Линк
448. Quétel, C., Vassileva, E., Petrov. I., Chakarova, K., Hadjiivanov, K.. First results on Fe solid-phase extraction from coastal seawater using anatase TiO2 nano-particles. Analytical and Bioanalytical Chemistry, 396, 2010, DOI:10.1007/s00216-009-3436-y, 2349-2361. ISI IF:3.841
Цитира се в:
1542. M. He, L. Huang, B. Zhao, B. Chen, B. Hu, "Advanced functional materials in solid phase extraction for ICP-MS determination of trace elements and their species - A review.", Analytica Chimica Acta , 973 (2017) 1-24., 2017 Линк
449. Koleva, V., Zhecheva, E., Stoyanova, R.. Ordered olivine-type lithium-cobalt and lithium-nickel phosphates prepared by a new precursor method. European Journal of Inorganic Chemistry, 26, 2010, ISSN:1434-1948, 4091-4099. ISI IF:2.942
Цитира се в:
1543. Suesca, A., & Eduardo, C. (2017). Contribution to the synthesis and morphology control of LiCoPO4-Pnma using polyol method (Doctoral dissertation, Technische Universität
page 147/232
München)., 2017 Линк
1544. Örnek, A. (2017). A new and effective approach to 4.8 V cathode synthesis with superior electrochemical qualities for lithium-ion applications. Journal of Alloys and Compounds, 710, 809-818., 2017 Линк
1545. Ludwig, J., Haering, D., Doeff, M.M., Nilges, T. Particle size-controllable microwave-assisted solvothermal synthesis of the high-voltage cathode material LiCoPO4 using water/ethylene glycol solvent blends (2017) Solid State Sciences, 65, pp. 100-109., 2017 Линк
1546. Ludwig, J., Marino, C., Haering, D., Stinner, C., Gasteiger, H.A., Nilges, T. Morphology-controlled microwave-assisted solvothermal synthesis of high-performance LiCoPO4 as a high-voltage cathode material for Li-ion batteries (2017) Journal of Power Sources, 342, pp. 214-223., 2017 Линк
1547. Таня Йорданова Бояджиева, “Метални фосфати като електродни материали в алкални йонни батерии”, Докторска Дисертация, 2017, Българска академия на науките, София, лит. 170., 2017
450. Nwokeke, U. G., Alcántara, R., Tirado, J. L., Stoyanova, R., Yoncheva, M., Zhecheva, E.. Electron Paramagnetic Resonance, X-ray Diffraction, Mössbauer Spectroscopy, and Electrochemical Studies on Nanocrystalline FeSn2 Obtained by Reduction of Salts in Tetraethylene Glycol. Chem. Mater., 22, 7, American Chemical Society, 2010, 2268-2275. ISI IF:9.407
Цитира се в:
1548. Su, L., Fu, J., Zhang, P., Wang, L., Wang, Y., & Ren, M. (2017). Uniform core–shell Cu 6 Sn 5 C nanospheres with controllable synthesis and excellent lithium storage performances. RSC Advances, 7(45), 28399-28406., 2017 Линк
451. Angelova D., Uzunova S., Uzunov I., Staykov S.. Preparation of a Biogenic Carbon/Silica Based Adsorbent for Removal of Petroleum Products Spills from Aqueous Medium. J Chem Technol Metall, 45, 1, University of Chemical Technology and Metallurgy, Sofia, 2010, ISSN:1311-7629, 25-32. SJR:0.331
Цитира се в:
1549. Arash Almasian, Ghazaleh Chizari Fard, Laleh Ma, Fabrication of hollow and nonhollow SiO2nanofibers for removal of cationic dyes from aqueous solutions, Environ. Prog.Sust.Energ., 36 (5) (2017) 1390-1404, 2017
1550. S.A. Cortez, B.I. Kharisov, T.E.S. Quezada, T.C.H. García, Micro-and nanoporous materials capable of absorbing solvents and oils reversibly: the state of the art, Petroleum Science, 14 (1) (2017) 84-104, 2017
452. Stoyanova A., Sredkova M., Bachvarova-Nedelcheva A., Iordanova R., Dimitriev Y., Hitkova H., Iliev Tz.. Nonhydrolytic Sol-Gel Synthesis and Antibacterial Properties of Nanosized TiO2. Optoelectron. Adv. Mater. - Rapid Commun., 4, 2010, 2059-2063. SJR:0.208, ISI IF:0.394
Цитира се в:
1551. Motevalli K., Ebadi M., & Salehi Z., Synthesis of Ag–AgO/Al2O3 nanocomposite via a facile two-step method for photodegradation of methylene blue, J. Mater. Sci.: Mater. Electron., 28 (17) (2017) pp. 13024–13031., 2017 Линк
1552. Yadav U., Yadav B. C., Sen M. , Chatterji T. and Rehman Q., Antimicrobial effect of synthesized TiO2 nanoparticles against pathogenic microorganisms International Journal of Current Multidisciplinary Studies, 3 (05) (2017) pp. 751-755., 2017 Линк
453. Mihaylov, M., Ivanova, E., Drenchev, N., Hadjiivanov, K.. Coordination Chemistry of Fe2+ Ions in Fe,H–ZSM-5 Zeolite as Revealed by the IR Spectra of Adsorbed CO and NO. J. Phys. Chem., C, 114, 2,
page 148/232
American Chemical Society, 2010, DOI:10.1021/jp906213a, 1004-1014. ISI IF:4.772
Цитира се в:
1553. Lei Chen, Yuxin Li, Qinxin Zhao, Yungang Wang, Zhiyuan Liang and Qiang Lu, Removal of NOX Using Hydrogen Peroxide Vapor over Fe/TiO2 Catalysts and an Absorption Technique, Catalysts, 7 (12), (2017), 386 [ISI], 2017 Линк
1554. K.S. Park, J.H. Kim, S.H. Park, D.J. Moon, H.-S. Roh, C.-H. Chung, S.H. Um, J.-H. Choi, J.W. Bae, Direct activation of CH4 to oxygenates and unsaturated hydrocarbons using N2O on Fe-modified zeolites , J. Mol. Catal. A, 426, (2017), pp. 130-140 [ISI], 2017 Линк
454. Malpartida, I., Ivanova, E., Mihaylov, M., Hadjiivanov, K., Blasin-Aube, V., Marie, O., Daturi, M.. CO and NO Adsorption for the IR Characterization of Fe2+ Cations in Ferrierite: An Efficient Catalyst for NOx SCR with NH3 as Studied by Operando IR Spectroscopy. Catal. Today, 149, 2010, DOI:10.1016/j.cattod.2009.09.015, 295-303. ISI IF:3.309
Цитира се в:
1555. C. Anfray, Développement de stratégies de vectorisation pour réduire les effets de l’hypoxie dans les glioblastomes, Ph. D. Thesis, Normandie Universite, Caen, France, 2017, 2017 Линк
1556. J.F.G. Diaz, Zeolitas naturales Colombianas de la formacion Combia, municipio de La Pintada: mineralogía, caracterizacion y aplicaciones, Ph. D. Thesis, Universidad Nacional de Colombia, Medellín, Colombia, 2017 [Google]., 2017 Линк
1557. Zhanga, X., Ma, Ch., Chenga, X., Wanga, Zh., Performance of Fe-Ba/ZSM-5 catalysts in NO + O2 adsorption and NO + CO reduction, International Journal of Hydrogen Energy 42 (2017) 7077-7088, 2017 Линк
455. Bojinov, V., Panova, I., Simeonov, D.. Synthesis and sensor activity of photostable blue emitting 1,8-naphthalimides containing s-triazine UV absorber and HALS fragments. Journal of Photochemistry and Photobiology A: Chemistry, 210, 2-3, Elsevier, 2010, ISSN:1010-6030, DOI:10.1016/j.jphotochem.2010.01.015, 89-99. ISI IF:2.495
Цитира се в:
1558. S. O. Aderinto, Y. Xu, H. Peng, F. Wang, H. Wu, X. Fan. A highly selective fluorescent sensor for monitoring Cu2+ ion: Synthesis, characterization and photophysical properties. J. Fluoresc. 27 (1), 79-87 (2017)., 2017
1559. M. Guzel, E. Karatas, M. Ak. Synthesis and fluorescence properties of carbazole based asymmetric functionalized star shaped polymer. J. Electrochem. Soc. 164 (2) H49-H55 (2017)., 2017
456. Ivanova, E., Mihaylov, M., Hadjiivanov, K., Blasin-Aube, V., Marie, O., Plesniar, A., Daturi, M.. Evidencing Three Distinct FeII Sites in Fe-FER Zeolites by Using CO and NO as Complementary IR Probes. Appl. Catal., B, 93, 2010, DOI:10.1016/j.apcatb.2009.10.006, 325-338. SJR:2.583, ISI IF:7.435
Цитира се в:
1560. L. Chen, , Y. Li, Q. Zhao, Y. Wang, Z. Liang, Q.Lu, Removal of NOX Using Hydrogen Peroxide Vapor over Fe/TiO2 Catalysts and an Absorption Technique, Catalysts, 7 (2017) 386, 2017 Линк
1561. X. Zhang, C. Ma, X Cheng, Z. Wang, Performance of Fe-Ba/ZSM-5 catalysts in NO + O2 adsorption and NO + CO reduction, International Journal of Hydrogen Energy 42 (2017) 7077-7088, 2017 Линк
457. Dikovska, A.Og., Atanasova, G.B., Nedyalkov, N.N., Stefanov, P.K., Atanasov, P.A., Karakoleva, E.I.,
page 149/232
Andreev, A.Ts.. Optical sensing of ammonia using ZnO nanostructure grown on a side-polished optical-fiber. Sensors and Actuators B, 146, Elsevier, 2010, ISSN:09254005, DOI:10.1016/j.snb.2010.02.018, 331-336. SJR:1.155, ISI IF:4.097
Цитира се в:
1562. Tan, L., Zhon, Y., Yu, J., (...), Guan, H., Chen, Z., Temperature sensing of side-polished optical fiber with polymer nanostructure cladding, 2017 Opto-Electronics and Communications Conference, OECC 2017 and Photonics Global Conference, PGC 2017 2017-November, pp. 1-3, 2017, 2017
1563. Chen, L., Yang, X., Zhang, L., Optical H2 sensing properties of oriented ZnO: Cd nanorod thin films, Zhang, L. 2017 Gongneng Cailiao/Journal of Functional Materials, 48(5), pp. 05127-05131, 2017, 2017
1564. Nogueira, R.N., Bilro, L.M.B., Alberto, N.J., Lima, H.F.T., de Lemos Pinto, J., Optical fiber sensors: Devices and techniques ( Book Chapter), 2017 Smart Sensors for Industrial Applications, pp. 3-16., 2017, 2017
1565. Nogueira, R., Bilro, L., Alberto, N., Lima, H., Pinto, J.L., Optical fiber sensors ( Book Chapter), 2017 Optical, Acoustic, Magnetic, and Mechanical Sensor Technologies, pp. 3-26, 2017
1566. Dejun Liu; Xiaokang Lian; Arun Kumar Mallik; Wei Han; Fangfang Wei; Jinhui Yuan; Chongxiu Yu; Gerald Farrell; Yuliya Semenova; Qiang Wu, Detection of volatile organic compounds using an optical fiber sensor coated with a sol-gel silica layer containing immobilized Nile red, Proceedings Volume 10323, 25th International Conference on Optical Fiber Sensors; 103232W (2017); doi: 10.1117/12.2263671, 2017
1567. S. Narasimman, L. Balakrishnan, S.R. Meher, R. Sivacoumar, Z.C. Alex, Influence of surface functionalization on the gas sensingcharacteristics of ZnO nanorhombuses, Journal of Alloys and Compounds 706 (2017) 186-197, 2017
1568. Hoorieh Fallah; Mahmood Afra; Ezeddin Mohajerani; Waleed S. Mohammad, Utilization of ZnO nanorods growth on a tip of plastic optical fiber toward the realization of low-cost CO and CO2 gas sensor, Journal of Nanophotonics 11(3), 036023 (23 September 2017). http://dx.doi.org/10.1117/1.JNP.11.036023, 2017
1569. Parvinder Kaur, M. R. Shenoy, Design and Simulation of a Highly Sensitive Refractive Index Sensor based on Grating-assisted Strip Waveguide Directional Coupler, 2017, arXiv:1709.08815 [physics.app-ph], 2017
1570. Aritz Ozcariz, Carlos R. Zamarreño, Pablo Zubiate & Francisco J. Arregui, Is there a frontier in sensitivity with Lossy mode resonance (LMR) based refractometers?, Scientific Reports 7, Article number: 10280 (2017) doi:10.1038/s41598-017-11145-9, 2017
1571. Wang Min Liu Fu-Fei Zhou Xian Dai Yu-Tang Yang Ming-Hong, Optical fiber sensing technologies based on femtosecond laser micromachining and sensitive films, : Acta Physica Sinica, 66, 070703 (2017) DOI: 10.7498/aps.66.070703, 2017
1572. Jieyuan Tang, Junjie Zhou, Junwen Guan, Shun Long, Jianhui Yu, Heyuan Guan, Huihui Lu, Yunhan, Luo, Jun Zhang and Zhe Chen, Fabrication of Side-Polished Single Mode-Multimode-Single Mode Fiber and Its Characteristics of Refractive Index Sensing, IEEE Journal of Selected Topics in Quantum Electronics VOL. 23, NO. 2, MARCH/APRIL 2017, 2017
1573. S. Devendiran, D. Sastikumar, Gas sensing based on detection of light radiation from a region of modified cladding (nanocrystalline ZnO) of an optical fiber, Optics & Laser Technology Volume 89, March 2017, Pages 186–191., 2017
1574. Del Villar, I., Arregui, F.J., Zamarreño, C.R., (...), Ascorbe, J., Matias, I.R., Optical sensors based on lossy-mode resonances, Sensors and Actuators, B: Chemical 240, 2017 pp. 174-185, 2017
page 150/232
458. Sendova-Vassileva, M., Stoyanova, R., Carlier, D., Yoncheva, M., Zhecheva, E., Delmas, C.. Raman Spectroscopy Study on Na2/3Mn1-xFexO2 Oxides. Solid State Sciences, 74, Scientific.Net, 2010, ISSN:1662-0356, DOI:10.4028/www.scientific.net/AST.74.60, 60-65. ISI IF:1.742
Цитира се в:
1575. Zhang, J.; Yu, D.Y.W. "Phase‐Pure P2‐Na0.7(1−x)[LixMn1−x]Oδ as a Cathode Material for Na‐Ion Batteries" ChemElectroChem 4 (2017) 1287-1294, 2017 Линк
459. Stambolova, I., Blaskov, V., Shipochka, M., Vassilev, S., Dushkin, C., Dimitriev, Y.. Porous photocatalytically active ZnO films obtained from ethylcellulose modified solutions by spray pyrolysis. Materials Chemistry and Physics, 121, 2010, ISSN:0254-0584, 447-452. SJR:0.841, ISI IF:2.072
Цитира се в:
1576. L. Xu et al. "The photocatalytic performance of ZnO/Ag multi-layered films: the effect of ZnO-layer thickness." OPTOELECTRONICS AND ADVANCED MATERIALS-RAPID COMMUNICATIONS 11.5-6 (2017): 381-384., 2017 Линк
460. Panayotov, D., S. Burrows, Mihaylov, M., Hadjiivanov , K., B.M. Tissue, J.R. Morris. Effect of Methanol on the Lewis Acidity of Rutile TiO2 Nanoparticles Probed through Vibrational Spectroscopy of Coadsorbed CO. Langmuir, 26, 11, American Chemical Society, 2010, DOI:10.1021/la100861n, 8106-8112. ISI IF:4.457
Цитира се в:
1577. E. Wada, Catalytic reactions of organic compounds by titanium oxides and titanate nanotubes, Ph. D. Thesis, Kyoto University, Kyoto, Japan, 2017 [GS]., 2017 Линк
1578. M. Kitano, H. Kobayashi, S. Hayashi and M. Hara, Acid Properties of Protonated Titanate Nanotubes, J. Jap. Petrol. Inst., 60 (2017) 113 [ISI]., 2017 Линк
461. Stambolova, I., Blaskov, V., Vassilev, S., Shipochka, M., Dushkin, C.. Thin nanocrystalline TiO2–SnO2 sprayed films: Influence of the dopant concentration, substrate and thermal treatment on the phase composition and crystallites sizes. Journal of Alloys and Compounds, 489, Elsevier, 2010, ISSN:0925-8388, 257-261. SJR:1.158, ISI IF:2.39
Цитира се в:
1579. Saeed, Sohail, et al. "Nanostructured thin film of iron tin oxide by aerosol assisted chemical vapour deposition using a new ferrocene containing heterobimetallic complex as single-source precursor." European Journal of Chemistry 8.3 (2017): 224-228., 2017 Линк
1580. Adawiyah, S. R. "Structural and morphological characterization of TiO2-SnO2 thin film prepared by combining doctor-blade and sol-gel techniques." IOP Conference Series: Materials Science and Engineering. Vol. 188. No. 1, 2017 012062., 2017 Линк
462. Koleva, V., Stoyanova, R., Zhecheva, E.. Formation of metastable Na2CrO4-type LiNiPO 4 from a phosphate-formate precursor. European Journal of Inorganic Chemistry, 1, 2010, ISSN:1434-1948, 127-131. ISI IF:2.942
Цитира се в:
1581. Таня Йорданова Бояджиева, Метални фосфати като електродни материали в алкални йонни батерии, Докторска дисертация, Българска академия на науките, София, 2017, лит. 190., 2017 Линк
1582. Anand, K., Ramamurthy, B., Veeraiah, V., & Vijaya Babu, K. (2017). Effect of magnesium substitution on structural and dielectric properties of LiNiPO4. Materials Science-Poland, 35(1), 66-80., 2017 Линк
page 151/232
463. Panchev, I., Slavov, A., Nikolova, K., Kovacheva, D.. On the water-sorption properties of pectin. Food Hydrocolloids, 24, 8, 2010, ISSN:0268-005X, DOI:10.1016/j.foodhyd.2010.04.002, 763-769. ISI IF:4.09
Цитира се в:
1583. Einhorn-Stoll, Ulrike. "Pectin-water interactions in foods–From powder to gel." Food Hydrocolloids (2017)., 2017 Линк
1584. Adamczak, Małgorzata I., et al. "Polymer coated mucoadhesive liposomes intended for the management of xerostomia." International Journal of Pharmaceutics 527.1 (2017): 72-78., 2017 Линк
1585. Alancay, Matías M., et al. "Extraction and physicochemical characterization of pectin from tomato processing waste." Journal of Food Measurement and Characterization 11.4 (2017): 2119-2130., 2017 Линк
1586. Rangelova, Nadezhda, Lyubomir Aleksandrov, and Sanchi Nenkova. "Synthesis and characterization of pectin/SiO2 hybrid materials." Journal of Sol-Gel Science and Technology (2017): 1-10., 2017 Линк
2011
464. Kotzeva, B., Guillong, M., Stefanova, E., Piperov, N.. LA-ICP-MS analysis of single fluid inclusions in a quartz crystal (Madan ore district, Bulgaria). Journal of Geochemical Exploration, 108, 3, 2011, 163-175. ISI IF:2.747
Цитира се в:
1587. Mischel, Simon A.; Mertz-Kraus, Regina; Jochum, Klaus Peter; et al. "TERMITE: An R script for fast reduction of laser ablation inductively coupled plasma mass spectrometry data and its application to trace element measurements" RAPID COMMUNICATIONS IN MASS SPECTROMETRY 31 ( 13 ) Pages: 1079-1087, 2017
465. Aleksandrov, L., Komatsu, T., Nagamine, K., Oishi, K.. Raman spectroscopic study of structure and crystallisation behaviour of MoO3-La2O3-B2O3 and MoO3-ZnO-B2O3 glasses. Materials Science and Engineeringaterials Science and Engineering, 21, 1, 2011, ISI IF:2.647
Цитира се в:
1588. Kassem M. Influence of Phase Composition and Textural Features of ZnMoO4–MoO3 Systems on the Photocatalytic Degradation of Methyl Red. Inorganic Materials. 53, 7, 722–727, 2017, 2017 Линк
466. Anić M., Radić, N., Grbić, B., Dondur V., Damjanov l., Stoychev, D., Stefanov, P.. Catalytic activity of Pt catalysts promoted by MnO x for n-hexane oxidation. Applied Catalysis B: Environmental, 107, 3, E, 2011, ISSN:0926-3373, DOI:10.1016/j.apcatb.2011.07.032, 327-332. SJR:2.583, ISI IF:9.446
Цитира се в:
1589. Uson, L., et al., "In-situ preparation of ultra-small Pt nanoparticles within rod-shaped mesoporous silica particles: 3-D tomography and catalytic oxidation of n-hexane" (2017) Catalysis Communications, 100, pp. 93-97., 2017 Линк
1590. Balzer, R., Probst, L.F.D., Fajardo, H.V., Teodoro, F.S., Gurgel, L.V.A., Gil, L.F. "New use for succinylated sugarcane bagasse containing adsorbed Cu2+ and Ni2+: Efficient catalysts for gas-phase n-hexane and n-heptane oxidation reactions" (2017) Industrial Crops and Products, 97, pp. 649-652, 2017 Линк
467. Aleksandrov, L., Komatsu, T., Iordanova, R., Dimitriev, Y.. Raman spectroscopic study of structure of
page 152/232
WO3-La2O3-B2O3 glasses with no color and crystallization of LaBWO6. Optical Materials, 43, 1, 2011, ISSN:09253467, DOI:10.1016/j.optmat.2011.08.002, 201-206. ISI IF:1.981
Цитира се в:
1591. Bin, Li, et al. "Energy transfer and tunable photoluminescence of LaBWO6:Tb3+, Eu3+ phosphors for near-UV white LEDs". Dyes and Pigments. 150, 67-72, 2017, 2017 Линк
468. Guergova, D., Stoyanova, E., Stoychev, D., Avramova, I., Atanasova, G., Stefanov, P.. Corrosion stability of stainless steel, modified electrochemically with Ce 2O 3-CeO 2 films, in 3.5% NaCl media. Bulgarian Chemical Communications, 43, 1, 2011, ISSN:0324-1130, 150-157. ISI IF:0.349
Цитира се в:
1592. Stephan V. Kozhukharov, Vassil I. Samichkov, Christian A. Girginov, Maria S. Machkova, Actual trends in the elaboration of advanced multifunctional coating systems for the efficient protection of lightweight aircraft alloys, Corrosion Reviews, 35(6), pp. 383-396, 2017, 2017
469. Donkova, B., Vasileva, P., Nihtianova, D., Velichkova, N., Stefanov, P., Mehandjiev, D.. Synthesis, characterization, and catalytic application of Au/ZnO nanocomposites prepared by coprecipitation. Journal of Materials Science, 46, 22, Springer, 2011, ISSN:00222461, DOI:10.1007/s10853-011-5503-y, 7134-7143. SJR:0.836, ISI IF:2.302
Цитира се в:
1593. Fkiri, A., Santacruz, M.R., Mezni, A., Smiri, L.-S., Keller, V., Keller, N. "One-pot synthesis of lightly doped Zn1в€’xCuxO and Au–Zn1в€’xCuxO with solar light photocatalytic activity in liquid phase" (2017) Environmental Science and Pollution Research, 24 (18), pp. 15622-15633, 2017 Линк
1594. Liu, Q., Zhu, J., Ma, N., Wang, T., Wang, L., Yang, H. "ZnO-based compound conductive ceramics applied in high-frequency electric field" (2017) Journal of Materials Science: Materials in Electronics, 28 (13), pp. 9190-9198., 2017 Линк
470. Koleva, V., Zhecheva, E., Stoyanova, R.. Facile synthesis of LiMnPO4 olivines with a plate-like morphology from a dittmarite-type KMnPO4·H2O precursor. Dalton Transactions, 40, 28, 2011, ISSN:1477-9226, 7385-7394. ISI IF:4.197
Цитира се в:
1595. Таня Йорданова Бояджиева, “Метални фосфати като електродни материали в алкални йонни батерии”, Докторска Дисертация, 2017, Българска академия на науките, София, лит. 123., 2017
1596. Pigliapochi, R., Pell, A. J., Seymour, I. D., Grey, C. P., Ceresoli, D., & Kaupp, M. (2017). DFT investigation of the effect of spin-orbit coupling on the NMR shifts in paramagnetic solids. Physical Review B, 95(5), 054412., 2017 Линк
1597. Lee, M. J., Kang, J. S., Ahn, D., Chung, D. Y., Park, S., Son, Y. J., ... & Lee, K. S. (2017). Lithium manganese phosphate-carbon composite as a highly active and durable electrocatalyst for oxygen reduction reaction. Electrochimica Acta, 245, Pages 219-226, 2017 Линк
1598. Rajammal, K., Sivakumar, D., Duraisamy, N., Ramesh, K., & Ramesh, S. (2017). Na-doped LiMnPO4 as an electrode material for enhanced lithium ion batteries. Bulletin of Materials Science, 40(1), 171-175., 2017 Линк
471. Mihaylov, M., Ivanova, E., Chakarova, K., Novachka, P., Hadjiivanov, K.. Reduced iron sites in Fe-BEA and Fe-ZSM-5 zeolites: FTIR study of CO adsorption and 12C16O – 13C18O co-adsorption. Appl. Catal.
page 153/232
A-Gen., 391, 2011, DOI:10.1016/j.apcata.2010.05.014, 3-10. ISI IF:3.903
Цитира се в:
1599. T. Margossian, K. Larmier, S. M. Kim, F. Krumeich, C. Müller, C. Copéret, "Supported Bimetallic NiFe Nanoparticles through Colloid Synthesis for Improved Dry Reforming Performance", ACS Catalysis, 7 (2017) 6942-6948., 2017 Линк
1600. T. Margossian, “Tailored Supported Nickel Nanoparticle Catalysts for Dry Reforming of Methane via a Molecular Approach”, Ph. D. Thesis, ETH, Zurich, Switzerland, 2017., 2017 Линк
472. Nihtianova, D., Velichkova, N., Nikolova, R., Koseva, I., Yordanova, A., Nikolov, V.. Characterization of nanosized Al2(WO4)3. Materials Research Bulletin, 46, Elsevier, 2011, ISSN:0025-5408, DOI:10.1016/j.materresbull.2011.06.038, 2125-2130. SJR:0.74, ISI IF:2.288
Цитира се в:
1601. Hunyadi, Dávid. "Polivolframátok fázisátalakulásai." (2017)., 2017
473. Nwokeke, U. G., Alcantara, R., Tirado, J. L., Stoyanova, R., Zhecheva, E.. The electrochemical behavior of low-temperature synthesized FeSn 2 nanoparticles as anode materials for Li-ion batteries. Journal of Power Sources, 196, 16, 2011, ISSN:0378-7753, 6768-6771. ISI IF:6.217
Цитира се в:
1602. Su, L., Fu, J., Zhang, P., Wang, L., Wang, Y., & Ren, M. (2017). Uniform core–shell Cu 6 Sn 5 C nanospheres with controllable synthesis and excellent lithium storage performances. RSC Advances, 7(45), 28399-28406., 2017 Линк
1603. Chamas, M., Mahmoud, A., Tang, J., Sougrati, M. T., Panero, S., & Lippens, P. E. (2016). Aging Processes in Lithiated FeSn2 Based Negative Electrode for Li-ion Batteries: a New Challenge for Tin Based Intermetallic Materials. The Journal of Physical Chemistry C., 121 (1), (2017) pp 217–224., 2017 Линк
474. Aleksandrov, L., Komatsu, T., Iordanova, R., Dimitriev, Y.. Structure study of MoO3-ZnO-B2O3 glasses by Raman spectroscopy and formation of α-ZnMoO4 nanocrystals. Optical Materials, 33, 6, elsevier, 2011, ISSN:09253467, DOI:10.1016/j.optmat.2011.01.003, 839-845. ISI IF:1.981
Цитира се в:
1604. Liu, Wan, et al. "Novel ZnMoO4/reduced graphene oxide hybrid as a high-performance anode material for lithium ion batteries". Journal of Alloys and Compounds, 708 (25) 713-721, 2017., 2017 Линк
1605. G, Lakshminarayana, et al. "Structural, thermal, and optical absorption studies of Er3 +, Tm3 +, and Pr3 +-doped borotellurite glasses". Journal of Non-Crystalline Solids 459, 150-159, 2017., 2017 Линк
1606. Yong-PingGao, et al. "High-performance symmetric supercapacitor based on flower-like zinc molybdate", Journal of Alloys and Compounds 731, 1151-1158, 2017., 2017 Линк
1607. V, Jeseentharani, et al. "Co-precipitation synthesis, humidity sensing and photoluminescence properties of nanocrystalline Co2+ substituted zinc(II)molybdate (Zn1–xCoxMoO4; x = 0, 0.3, 0.5, 0.7, 1)". Solid State Sciences 67, 46-58, 2017., 2017 Линк
1608. F, Goumeidane, et al. "Influence of molybdenum oxide on structural, optical and physical properties of oxychloride glasses for nonlinear optical devices". Ceramics International 43 (14), 11305-11311, 2017., 2017 Линк
475. Angelova D., Uzunov I., Uzunova S., Gigova A., Minchev L.. Kinetics of oil and oil products adsorption by
page 154/232
carbonized rice husks. Chem Eng J, 172, Elsevier, 2011, ISSN:1385-8947, 306-311. SJR:1.86, ISI IF:6.735
Цитира се в:
1609. DOI: 10.4172/2324-866 Hind Aljohani, Natural Ternary Nano-Blends Monolith Cascade for Oil Spill Recovery, J Mar Biol Oceanogr , 2017, 6:41.1000184, 2017
1610. H. Liu, B. Geng, Y. Chen, H. Wang, A review on the aerogel-type oil sorbents derived from nanocellulose, ACS Sustainable Chem. Eng., 5(1) (2017) 49-66, 2017
1611. H. Sharifnasab, M. Y. Alamooti, Preparation of silica powder from rice husk, Agric. Eng. Int.: CIGR Journal 19 (1) (2017) 158-161, 2017
1612. J. Wu, A. K. An , J. Guo, E.-J. Lee, M. U. Farid, S. Jeong, CNTs reinforced super-hydrophobic-oleophilic electrospun polystyrene oil sorbent for enhanced sorption capacity and reusability, Chemical Engineering Journal, 314 (2017) 526-536, 2017
1613. Mora, José Ramon, Tesis (Ingeniero Químico), Universidad San Francisco de Quito, Colegio de Ciencias e Ingenierías; Quito, Ecuador, 2017, Estudio de la capacidad de adsorcion de materiales orgánicos para la remocion de aceites y combustibles presentes en aguas, May-2017, 2017
1614. Laitinen, Ossi; Suopajarvi, Terhi; Osterberg, Monika; et al., Hydrophobic, Superabsorbing Aerogels from Choline Chloride-Based Deep Eutectic Solvent Pretreated and Silylated Cellulose Nanofibrils for Selective Oil Removal, ACS Applied Materials & Interfaces, 9 (29) (2017) 25029-25037, 2017
1615. Ma, Qinglang; Yu, Yifu; Sindoro, Melinda; et al., Carbon-Based Functional Materials Derived from Waste for Water Remediation and Energy Storage, Advanced Materials 29 (13), Article Number: 1605361, 4 (2017), 2017
1616. Han, Sang Wook; Park, Eun Ji; Jeong, Myung-Geun; et al., Fabrication of recyclable superhydrophobic cotton fabrics, Applied Surface Science, 400 (2017) 405-412, 2017
1617. Pyatanova, P. A.; Adeeva, L. N., Cleaning Oil Refining Drainage Waters out of Emulsified Oil Products with Thermic Treated Cedar Nut Shell, OIL AND GAS ENGINEERING (OGE-2017) Book Series: AIP Conference Proceedings Volume: 1876 Article Number: UNSP 020011-1 Published: 2017 ( Edited by: Myshlyavtsev, AV; Likholobov, VA; Yusha, VL), 2017 Линк
1618. Yin, Tiantian; Zhang, Xinying; Liu, Xiaoyan; et al., Spilled-Oil Sorbents Prepared by Recycling of Eutrophicated Aquatic Plants, Chemical Engineering & Technology 40 (1) (2017)170-176, 2017
1619. Sheng Lei, Zhongqi Shi, Junfei Ou, Fajun Wang, Mingshan Xue, Wen Li, Guanjun Qiao, Xinhai Guan, Jie Zhang, Durable superhydrophobic cotton fabric for oil/water separation, Colloids and Surfaces A: Physicochemical and Engineering Aspects 533 ( 2017) 249-254, 2017
1620. Hongzhi Liu, Biyao Geng, Yufei Chen, Haiying Wang, A review on the aerogel-type oil sorbents derived from nanocellulose, ACS Sustainable Chem. Eng., (2017) 5 (1), pp 49–66., 2017 Линк
476. Koseva, I., Nikolov, V., Yordanova, A., Tzvetkov, P., Kovacheva, D.. Preparation of nanosized sodium–aluminum tungstate, NaAl(WO4)2. Journal of Alloys and Compounds, 509, Elsevier BV, 2011, ISSN:0925-8388, DOI:10.1016/j.jallcom.2011.04.027, 7022-7026. SJR:1.091, ISI IF:2.999
Цитира се в:
1621. Kovács, Teodora Nagyné, et al. "Preparation of iron tungstate (FeWO4) nanosheets by hydrothermal method." Materials Research Bulletin 95 (2017): 563-569., 2017 Линк
477. Aleksandrov, L., Komatsu, T., Iordanova, R., Dimitriev, Y.. Study of molybdenum coordination state and crystallization behavior in MoO3-La2O3-B2O3 glasses by Raman apectroscopy. Journal of Physics and
page 155/232
Chemistry of Solids, 72, 4, elsevier, 2011, ISSN:00223697, DOI:10.1016/j.jpcs.2011.01.004, 263-268. ISI IF:1.853
Цитира се в:
1622. Goumeidane, F, et al. "Influence of molybdenum oxide on structural, optical and physical properties of oxychloride glasses for nonlinear optical devices". Ceramics International, 43 (14), 11305-11311, 2017, 2017 Линк
1623. Bhattacharya, Sanjib, et al. "Frequency and temperature dependent conductivity spectra of mixed transition metal oxide doped semiconducting glassy system". Journal of Non-Crystalline Solids, 478, 58-64, 2017, 2017 Линк
1624. V, Y, Ganvir, et al. "Effect of La2O3 addition on structural and electrical properties of sodium borosilicate glasses". Materials Research Express. 4 (3), 2017, 2017 Линк
478. Mladenov, M., Petrov, N., Budinova, T., Kovacheva, D., Raicheff, R.. Synthesis and electrochemical properties of the electrode materials for supercapacitors. Bulgarian Chemical Communications, 43, 2011, ISSN:0324-1130, 125-131. ISI IF:0.238
Цитира се в:
1625. Soserov, L., A. Stoyanova, and R. Stoyanova. "Activated nano-porous carbons as electrode materials for supercapacitors in aqueous electrolyte." BULGARIAN CHEMICAL COMMUNICATIONS 49 (2017): 15-21., 2017 Линк
1626. Stoyanova, Antonia. "Electrochemical Hybrid Supercapacitors Based on Activated Carbon and Iron Oxides." Journal of Progressive Research in Chemistry 4.2 (2017): 179-188., 2017 Линк
479. Chakarova, K., Mihaylov, M., Ivanova, S., Centeno, M. A., Hadjiivanov, K.. Well defined negatively charged gold carbonyls on Au/SiO2. Journal of Physical Chemistry C, 115, 2011, DOI:10.1021/jp2070562, 21273-21282. ISI IF:4.805
Цитира се в:
1627. Y. Wang, L. Shi, W. Lu, Q. Sun, Z. Wang, C. Zhi, A. H. Lu, "Spherical Boron Nitride Supported Gold–Copper Catalysts for the Low-Temperature Selective Oxidation of Ethanol", ChemCatChem, 9 (2017) 1363-1367., 2017 Линк
1628. L. A. Calzada, S. Collins, C. W. Han, V. Ortalan, R. Zanella, "Synergetic effect of bimetallic Au-Ru/TiO2 catalysts for complete oxidation of methanol", Applied Catalysis B: Environmental, 207 (2017) 79-92., 2017 Линк
1629. H. Olivier-Bourbigou, C. Chizallet, F. Dumeignil, P. Fongarland, C. Geantet, P. Granger, F. Launay, A. Löfberg, P. Massiani, F. Maugé, A. Ouali, A.-C. Roger, Y. Schuurman, N. Tanchoux, D. Uzio, F. Jérôme, D. Duprez, C. Pinel, "The Pivotal Role of Catalysis in France: Selected Examples of Recent Advances and Future Prospects.", ChemCatChem, 9 (2017) 2029-2064., 2017 Линк
1630. M. Chai, Y. Tan, G. X. Pei, L. Li, L. Zhang, X. Liu, A. Wang, T.ao Zhang, "Crystal Plane Effect of ZnO on the Catalytic Activity of Gold Nanoparticles for the Acetylene Hydrogenation Reaction", Journal of Physical Chemistry C, 121 (2017) 19727-19734., 2017 Линк
1631. G. Kučerová, J. Strunk, M. Muhler, R. J. Behm, "Effect of titania surface modification of mesoporous silica SBA-15 supported Au catalysts: Activity and stability in the CO oxidation reaction", Journal of Catalysis, 356 (2017) 214-228., 2017 Линк
1632. T. Tran-Thuy, Influences of moisture on room temperature co oxidation over Au/BN catalysts, Ph. D. Thesis, National Taiwan University of Science and Technology, Taipei, Taiwan, 2017, 2017 Линк
1633. M. Compagnoni, "Catalytic and photocatalytic processes for the production of alternative
page 156/232
fuels and chemicals from renewable sources", Ph. D. Thesis, Università degli Studi di Milano, Milano, Italy, 2017 [Google]., 2017
1634. Y. Miao, L. Shi, L. Cai and W. Li, in Metal Materials and Engineering (H. Currant, Ed.), English Press, New York, USA, 2017, p. 144 [GB]., 2017
480. Mihaylov, M., Lagunov, O., Ivanova, E., Hadjiivanov, K. Determination of Polycarbonyl Species on Nickel-containing Catalysts by Adsorption of CO Isotopic Mixtures". Top. Catal, 54, 2011, DOI:10.1007/s11244-011-9661-6, 308-317. ISI IF:2.365
Цитира се в:
1635. R.J. Chimentão, B.C. Miranda, J. Szanyi, C. Sepulveda, J.B.O. Santos, J.V.S. Correa, J. Llorca, F. Medina, Sources of deactivation during glycerol conversion on Ni/Γ-Al2O3, Mol. Catal., 435 (2017) 49 [ISI]., 2017 Линк
1636. B.M. Morales, Effect of Preparation Method on Catalytic Activity of Ni/γ-Al2O3 Catalysts, Ingeniería, 27 (2017) 21 [GS]., 2017 Линк
481. M. Milanova, R.Iordanova, L.Aleksandrov, M.Hassan, Y.Dimitriev. Glass formation and structure of glasses in the ZnO―Bi2O3―WO3―MoO3 system. Journal of Non-Crystalline Solids, 357, Elsevier, 2011, ISSN:0022-3093, DOI:doi.org/10.1016/j.jnoncrysol.2011.03.015, 2713-2718. ISI IF:2.124
Цитира се в:
1637. Anindya Sundar Das, et. al. "Investigations of Microstructure and Dc Conductivity of V2O5 -Nd2O3 Glass Nanocomposites." Chemistry Select, 2.34 (2017): 11273-11280., 2017
1638. Goumeidane, F., et al. "Influence of molybdenum oxide on structural, optical and physical properties of oxychloride glasses for nonlinear optical devices." (2017) Ceramics International , 43 (14), pp. 11305-11311., 2017
1639. El-Maaref, A.A., et. al."Optical characterizations and Judd-Ofelt analysis of Dy3+ doped borosilicate glasses" Optical Materials, 72 (2017): 169-176., 2017
482. Chakarova, K., Hadjiivanov, K.. H-Bonding of zeolite hydroxyls with weak bases: FTIR study of CO and N2 adsorption on H D ZSM-5. Journal of Physical Chemistry C, 115, 2011, DOI:10.1021/jp111961g, 4806-4817. ISI IF:4.805
Цитира се в:
1640. Y. Zhang, J. Li, J. Wu and B. Xu, "Ethylbenzene Disproportionation over ZSM-5 Modified by 3, 5-Dimethyl Phenylmagnesium Bromide", Chin. J. Inorg. Chem., 33 (2017) 2351-2356 [ISI]., 2017 Линк
1641. M. E. Potter, A. J. O'Malley, S. Chapman, J. Kezina, S. H. Newland, I. P. Silverwood, S. Mukhopadhyay, M. Carravetta, T. M. Mezza, S. F. Parker, C. Richard, A. Catlow, R. Raja, "Understanding the Role of Molecular Diffusion and Catalytic Selectivity in Liquid-Phase Beckmann Rearrangement", ACS Catalysis, 7 (2017) 2926-2934., 2017 Линк
1642. D. Rojo-Gama, M. Signorile, F. Bonino, S. Bordiga, U. Olsbye, K. P. Lillerud, P. Beato, S. Svelle, "Structure–deactivation relationships in zeolites during the methanol–to-hydrocarbons reaction: Complementary assessments of the coke content", Journal of Catalysis, 351 (2017) 33-48., 2017 Линк
1643. I. Miletto, G. Paul, S. Chapman, G. Gatti, L. Marchese, R. Raja, E. Gianotti, "Mesoporous Silica Scaffolds as Precursor to Drive the Formation of Hierarchical SAPO-34 with Tunable Acid Properties", Chemistry - A European Journal, 23 (2017) 9952-9961., 2017 Линк
1644. R. Osuga, T. Yokoi, K. Doitomi, H. Hirao, J. N. Kondo, "Infrared Investigation of Dynamic Behavior of Brønsted Acid Sites on Zeolites at High Temperatures", Journal of Physical Chemistry C, 121 (2017) 25411-25420., 2017 Линк
page 157/232
1645. T. Kubota, R. Osuga, T. Yokoi, J. N. Kondo, "Consideration of Acid Strength of a Single OH Group on Zeolites by Isotope Exchange Reaction with Ethane at High Temperatures, Topics in Catalysis, 60 (2017) 1496–1505., 2017 Линк
483. Grigorova, E., Mandzhukova, Ts., Khristov, M., Yoncheva, M., Stoyanova, R., Zhecheva, E.. Soft mechanochemically assisted synthesis of nano-sized LiCoO2 with a layered structure. Journal of Materials Science, 46, 22, 2011, ISSN:0022-2461, 7106-7113. ISI IF:2.371
Цитира се в:
1646. Xu, Feng, et al."Improving electrochemical properties of LiCoO2 by enhancing thermal decomposition of Cobalt and Lithium carbonates to synthesize ultrafine powders".CERAMICS INTERNATIONAL.Volume: 43 Issue: 8 Pages: 6494-6501, 2017, 2017 Линк
484. Chakarova, K., Hadjiivanov, K.. Problems in the IR measuring the acidity of zeolite bridging hydroxyls by low-temperature CO adsorption. Chemical Communications, 47, 2011, DOI:10.1039/C0CC04484A, 1878-1880. ISI IF:6.169
Цитира се в:
1647. H. Darmokoesoemo, A. R. Fidyayanti, H. Setyawati, H. S. Kusuma, "Synthesis of Complex Compounds Ni(II)-Chlorophyll as Dye Sensitizer in Dye Sensitizer Solar Cell (DSSC)", Korean Chemical Engineering Research , 55 (2017) 19-26., 2017 Линк
1648. G. Busca, "Acidity and basicity of zeolites: A fundamental approach", Microporous and Mesoporous Materials, 254 (2017) 3-16., 2017 Линк
485. Yoncheva, M., Koleva, V., Mladenov, M., Sendova-Vassileva, M., Nikolaeva-Dimitrova, M., Stoyanova, R., Zhecheva, E.. Carbon-coated nano-sized LiFe1-xMnxPO4 solid solutions (0 ≤ x ≤ 1) obtained from phosphate-formate precursors. Journal of Materials Science, 46, 22, 2011, ISSN:0022-2461, 7082-7089. ISI IF:2.371
Цитира се в:
1649. Lei, Z., Naveed, A., Lei, J., Wang, J., Yang, J., Nuli, Y., ... & Zhao, Y. (2017). High performance nano-sized LiMn 1− x Fe x PO 4 cathode materials for advanced lithium-ion batteries. RSC Advances, 7(69), 43708-43715., 2017 Линк
1650. Gao, C., Zhou, J., Liu, G., & Wang, L. (2017). Synthesis of F-doped LiFePO4/C cathode materials for high performance lithium-ion batteries using co-precipitation method with hydrofluoric acid source. Journal of Alloys and Compounds, 727, 501-513., 2017 Линк
1651. Muruganantham, R., Sivakumar, M., Subadevi, R., & Liu, W. R. (2017). Studies on Chemical and Physical Properties of LiFeMPO4 (M = Cu, La) by Polyol Route. World, 2(1), 7-12., 2017 Линк
1652. Deng, Y., Yang, C., Zou, K., Qin, X., Zhao, Z., Chen, G. Recent Advances of Mn-Rich LiFe1-yMnyPO4 (0.5 ≤ y < 1.0) Cathode Materials for High Energy Density Lithium Ion Batteries (2017) Advanced Energy Materials, 7 (13)., 2017 Линк
1653. Таня Йорданова Бояджиева, “Метални фосфати като електродни материали в алкални йонни батерии”, Докторска Дисертация, 2017, Българска академия на науките, София, лит. 106., 2017
486. Mancheva, M, Iordanova, R., Dimitriev, Y.,, Tyuliev, G.,, Iliev, Tz. Influence of heat treatment on the phase transition of ZrMo2O8 and photocatalytic activity. Central European Journal of Chemistry, 9, Springer, 2011, ISSN:1644-3624, 460-465. SJR:0.4, ISI IF:1.329
Цитира се в:
1654. Asvarov, A. Sh., Akhmedov, A. K., Abduev, A. Kh., Muslimov, A. E. & Chiolerio, A., "Effects
page 158/232
of the mechanoactivation treatment on the structure of ZnO–Zn cermet mixture", Crystallography Reports 62.1 (2017): 144-147., 2017
487. Cherkezova-Zheleva Z., Blaskov V., Mitov I., Klissurski D., Radev D., Cokov P.. MECHANOCHEMICALLY ACTIVATED SYNTHESIS OF NANOSTRUCTURED NiFe2O4. Inorganic Materials, 47, 5, 2011, ISSN:0020-1685, 527-530. ISI IF:0.556
Цитира се в:
1655. KOZMA GÁBOR, „Nanoszerkezetek mechanokémiai előállítása és modosítási lehetőségeinek vizsgálata” DOKTORI FOKOZATSZERZÉS, SZEGED 2017, 2017
488. Ivanova, Sv., Zhecheva, E., Nihtianova, D., Stoyanova, R.. Nano-domain structure of Li4Mn5O12 spinel. Journal of Materials Science, 46, 22, 2011, ISSN:0022-2461, 7098-7105. ISI IF:2.371
Цитира се в:
1656. Zainol, N. H., Osman, Z., Kamarulzaman, N., & Rusdi, R. (2017). Investigation on the electrochemical performances of Li4Mn5O12 for battery applications. Ionics, 23(2), 303-307., 2017 Линк
489. Chakarova, K., Petrova, G., Dimitrov, M., Dimitrov, L., Vayssilov, G., Tsoncheva, T., Hadjiivanov, K.. Coordination state of Cu+ ions in Cu-[Al]MCM-41. Applied Catalysis B, 106, 2011, DOI:10.1016/j.apcatb.2011.05.024, 186-194. ISI IF:5.625
Цитира се в:
1657. S. Li, K. Li, J. Hao, P. Ning, L. Tang, C. Wang, "Simultaneous Adsorption/Oxidation of NO and SO2 over Al–Cu Composite Metal Oxides Supported on MCM-41 at Low Temperature", Journal of Chemical Engineering of Japan, 50 (2017) 376-382., 2017 Линк
1658. S. Aspromonte, M. Mizrahi, E. Alonso, J. Ramallo-Lopez, A. Boix, "Co/MCM41 catalyst in the COProx reaction prepared by supercritical CO2 reactive deposition", Microporous and Mesoporous Materials, 239 (2017) 147-157., 2017 Линк
490. Markova-Velichkova, M., Iordanova, R., Dimitriev, Y.. Glass formation in the V2O5-MoO3-ZnO system. Physica Status Solidi (C) Current Topics in Solid State Physics, 8, 11-12, Wiley-VCH Verlag, 2011, ISSN:18626351, DOI:10.1002/pssc.201000752, 3159-3162. ISI IF:0.617
Цитира се в:
1659. S. Bhattacharyaa, A. SundarDas, M. Roy, D. Roy. "Formation of nano-phases and study of transition metal oxide doped glassy systems". Journal of Non-Crystalline Solids Volume 460, 15 March 2017, Pages 29-35, 2017
1660. A. S. Das, M. Roy, D. Roy, T. Kar, S. Rath, S. Bhattachary, "Investigations of Microstructure and Dc Conductivity of V2O5-Nd2O3 Glass Nanocomposites", Chemistry Select. Volume 2, Issue 34, Pages 11273–11280, 2017, 2017
491. S. Andonova, C.N. de Ávila, K. Arishtirova, J.M.C. Bueno, S. Damyanova. Structure and redox properties of Co promoted Ni/Al2O3 catalysts for oxidative steam reforming of ethanol. Applied Catalysis B: Environmental, 105, 2011, DOI:10.1016/j.apcatb.2011.04.029, 346-360. ISI IF:9.446
Цитира се в:
1661. Арапова Марина Васильевна, "Синтез и свойства Ni-содержащих катализаторов на основе сложных оксидов для процессов паровой конверсии этанола и глицерина", Диссертация на соискание ученой степени кандидата химических наук, Федеральное государственное бюджетное учреждение науки Институт катализа им. Г.К. Борескова Сибирского отделения Российской академии наук, 2017, 2017 Линк
page 159/232
1662. V. Beschkov, "Frontiers in Bioenergy and Biofuels", book edited by Eduardo Jacob-Lopes and Leila Queiroz Zepka, Chapter 10 “Biogas, Biodiesel and Bioethanol as Multifunctional Renewable Fuels and Raw Materials”, 2017, 2017 Линк
1663. X. Gao, et al., "Highly reactive Ni-Co/SiO2 bimetallic catalyst via complexation with oleylamine/oleic acid organic pair for dry reforming of methane" Catalysis Today, 281(2) (2017) 250-258., 2017 Линк
1664. A.A.S. Gonçalves, et al., "One-Pot Synthesis of Mesoporous Ni–Ti–Al Ternary Oxides: Highly Active and Selective Catalysts for Steam Reforming of Ethanol" ACS Applied Materials & Interfaces 9 (7) (2017) 6079-6092., 2017 Линк
1665. J.H. Song, e al., "Hydrogen Production by Steam Reforming of Ethanol Over Mesoporous Ni–Al2O3–ZrO2 Catalysts" Catal Surv Asia 21 (2017) 114-129., 2017 Линк
1666. J.H. Song, et al., "Hydrogen production by steam reforming of ethanol over Ni/Al2O3-La2O3 xerogel catalysts" Molecular Catalysis, 434 (2017) 123-133., 2017 Линк
1667. L. Liu, et al., "A new strategy to transform mono and bimetallic non-noble metal nanoparticles into highly active and chemoselective hydrogenation catalysts" Journal of Catalysis, 350 (2017) 218-225., 2017 Линк
1668. Sh.-F. Weng, et al., "Hydrogen production from oxidative steam reforming of ethanol on nickel-substituted pyrochlore phase catalysts" International Journal of Hydrogen Energy, 42(5) (2017) 2849-2860., 2017 Линк
1669. C. Lee, et al., "Catalyst for producing hydrogen and preparing method thereof" US 9623400 B2 Google Patents, 2017., 2017 Линк
1670. Q. Guan, et al., "High performance noble-metal-free NiCo/AC bimetal for gasification in supercritical water" International Journal of Hydrogen Energy, 42(10) (2017) 6511-6518., 2017 Линк
492. Mancheva, M, Iordanova, R, Dimitriev, Y.,. Mechanochemical synthesis of nanocrystalline ZnWO4 at room temperature. Journal of Alloys and Compounds, 509, Elsevier, 2011, 15-20. ISI IF:2.289
Цитира се в:
1671. Naderi, Hamid Reza, et al. "Decoration of nitrogen-doped reduced graphene oxide with cobalt tungstate nanoparticles for use in high-performance supercapacitors." Applied Surface Science 423 (2017): 668-676, 2017 Линк
1672. Zhang, Wei, et al. "Cyclic voltammetry analysis of copper electrode performance in Na 2 WO 4 solution and optical property of electrochemical synthesized CuWO 4 nanoparticles." Journal of Alloys and Compounds 690 (2017): 221-227., 2017 Линк
1673. Rahimi-Nasrabadi, Mehdi, et al. "Fabrication, characterization and photochemical activity of ytterbium carbonate and ytterbium oxide nanoparticles." Journal of Materials Science: Materials in Electronics (2017): 1-11., 2017 Линк
1674. Hao Y., et al., “Preparation of ZnWO inf4/inf-ZnO composite Photocatalyst and Its Photocatalytic Activity", Rengong Jingti Xuebao/Journal of Synthetic Crystals 46 (2017) 457-462, 2017 Линк
1675. Masteri-Farahani, M., and M. Saemi. "Microemulsion-mediated synthesis, characterization and optical properties of spherical nickel tungstate nanocrystals." Journal of Materials Science: Materials in Electronics 28.2 (2017): 1328-1335, 2017 Линк
1676. Rawat, Pooja, and Rajamani Nagarajan. "Ammonium fluoride mediated mechano chemical synthesis of A2PdF6 (A = K, Rb) along with their catalytic role in environmental remediation." Journal of Environmental Chemical Engineering 5.6 (2017): 5460-5468, 2017
1677. Hao, Yanyan, et al. "Synthesis of pearl necklace-like ZnO–ZnWO 4 heterojunctions with
page 160/232
enhanced photocatalytic degradation of Rhodamine B." RSC Advances 7.42 (2017): 26179-26184., 2017
493. Shinova, E., Mandzhukova, Ts., Grigorova, E., Hristov, M., Stoyanova, R., Nihtianova, D, Zhecheva, E.. On the incorporation of extra Li in lithium cobaltate Li 1+ x Co 1− x O 2. Solid State Ionics, 187, 1, Elsevier BV, 2011, ISSN:0167-2738, DOI:10.1016/j.ssi.2011.01.018, 43-49. SJR:0.771, ISI IF:2.561
Цитира се в:
1678. Fakkao, M., et al. " The influence of crystal orientation on the change in Li chemical potential of LiCoO2 under mechanical stress". Solid State Ionics. Volume 299 pp. 8–12, 2017, 2017 Линк
494. Iordanova R., Aleksandrov L., Bachvarova-Nedelcheva A., AtaaLa M., Dimitriev Y.. Glass formation and structure of glasses in the MoO3-Bi2O3-B2O3 system. J. Non-Cryst. Solids, 357, 2011, ISSN:0022-3093, 2663-2668. SJR:0.844, ISI IF:1.78
Цитира се в:
1679. El-Maaref A. A., at al. "Optical characterizations and Judd-Ofelt analysis of Dy3+ doped borosilicate glasses". Optical Materials., 72 (2017) pp. 167-176, 2017 Линк
1680. Hisam R., et al. "AC conductivity and dielectric behavior in mixed electronic-ionic 30Li2O–4MoO3–(66–x)TeO2–xV2O5 glass system". Ionics. 23 (6) (2017) pp. 1423-1437, 2017 Линк
1681. Ramzi Z., at al. "Synthesis and vibrational analysis of new bismuth phosphate glasses". Spectroscopy Letters. 50 (4) (2017) 200-205, 2017 Линк
495. Carlier, D., Cheng, J.H., Berthelot, R., Guignard, M., Yoncheva, M., Stoyanova, R., Hwang, B.J., Delmas, C.. The P2-Na2/3Co2/3Mn1/3O2 phase: Structure, physical properties and electrochemical behavior as positive electrode in sodium battery. Dalton Transactions, 40, 36, RSC Publisihing, 2011, ISSN:14779226, DOI:10.1039/c1dt10798d, 9306-9312. ISI IF:4.197
Цитира се в:
1682. Park, J.-K., Park, G.-G., Kwak, H.H., Hong, S.-T., Lee, J.-W. "Enhanced Rate Capability and Cycle Performance of Titanium-Substituted P2-Type Na0.67Fe0.5Mn0.5O2as a Cathode for Sodium-Ion Batteries". ACS Omega, 3 (1), pp. 361-368, 2017, 2017 Линк
1683. Sathiya, M., Thomas, J., Batuk, D., Pimenta, V., Gopalan, R., Tarascon, J.-M. "Dual Stabilization and Sacrificial Effect of Na2CO3 for Increasing Capacities of Na-Ion Cells Based on P2-NaxMO2 Electrodes". Chemistry of Materials, 29 (14), pp. 5948-5956, 2017, 2017 Линк
1684. Palanisamy, M., Kim, H.W., Heo, S., Lee, E., Kim, Y. "Insights into the Dual-Electrode Characteristics of Layered Na0.5Ni0.25Mn0.75O2 Materials for Sodium-Ion Batteries". ACS Applied Materials and Interfaces, 9 (12), pp. 10618-10625, 2017, 2017 Линк
1685. Ortiz-Vitoriano, N., Drewett, N. E., Gonzalo, E., & Rojo, T. (2017). High performance manganese-based layered oxide cathodes: overcoming the challenges of sodium ion batteries. Energy & Environmental Science, 10(5), 1051-1074., 2017 Линк
1686. Hwang, J. Y., Myung, S. T., & Sun, Y. K. (2017). Sodium-ion batteries: present and future. Chemical Society Reviews. 46, 3529-3614, 2017 Линк
1687. Wang, P. F., You, Y., Yin, Y. X., & Guo, Y. G., Layered Oxide Cathodes for Sodium‐Ion Batteries: Phase Transition, Air Stability, and Performance. Advanced Energy Materials, 2017, 701912(23) . DOI: 10.1002/aenm.201701912., 2017 Линк
1688. Li, W. J., Han, C., Wang, W., Gebert, F., Chou, S. L., Liu, H. K., ... & Dou, S. X. (2017). Commercial Prospects of Existing Cathode Materials for Sodium Ion Storage. Advanced Energy Materials, Volume 7, Issue 24, 1700274., 2017 Линк
page 161/232
1689. Bao, S., Luo, S., Wang, Z., Wang, Q., Hao, A., Zhang, Y., & Wang, Y. (2017). The critical role of sodium content on structure, morphology and electrochemical performance of layered P2-type NaxNi0. 167Co0. 167Mn0. 67O2 for sodium ion batteries. Journal of Power Sources, 362, 323-331., 2017 Линк
1690. Li, Z. Y., Gao, R., Sun, L., Hu, Z., & Liu, X. (2017). Zr-doped P2-Na 0.75 Mn 0.55 Ni 0.25 Co 0.05 Fe 0.10 Zr 0.05 O 2 as high-rate performance cathode material for sodium ion batteries. Electrochimica Acta, 223, 92-99., 2017 Линк
1691. Ding, C., Nohira, T., & Hagiwara, R. (2017). Charge-discharge performance of Na 2/3 Fe 1/3 Mn 2/3 O 2 positive electrode in an ionic liquid electrolyte at 90° C for sodium secondary batteries. Electrochimica Acta, 231, 412-416., 2017 Линк
1692. Nguyen, N. A., Kim, K., Choi, K. H., Jeon, H., Lee, K., Ryou, M. H., & Lee, Y. M. (2017). Effect of Calcination Temperature on a P-type Na0. 6Mn0. 65Ni0. 25Co0. 10O2 Cathode Material for Sodium-Ion Batteries. Journal of The Electrochemical Society, 164(1), A6308-A6314., 2017 Линк
1693. Zheng, C., Radhakrishnan, B., Chu, I. H., Wang, Z., & Ong, S. P. (2017). Effects of Transition-Metal Mixing on Na Ordering and Kinetics in Layered P 2 Oxides. Physical Review Applied, 7(6), 064003., 2017 Линк
1694. Ramasamy, H. V., Kaliyappan, K., Thangavel, R., Seong, W. M., Kang, K., Chen, Z., & Lee, Y. S. (2017). Efficient Method of Designing Stable Layered Cathode Material for Sodium Ion Batteries Using Aluminum Doping. The Journal of Physical Chemistry Letters, 8(20), 5021-5030., 2017 Линк
1695. Kwon, M. S., Lim, S. G., Park, Y., Lee, S. M., Chung, K. Y., Shin, T. J., & Lee, K. T. (2017). P2 Orthorhombic Na0. 7 [Mn1–x Li x] O2+ y as Cathode Materials for Na-Ion Batteries. ACS Applied Materials & Interfaces, 9(17), 14758-14768., 2017 Линк
1696. Wang, Q. C., Hu, E., Pan, Y., Xiao, N., Hong, F., Fu, Z. W., ... & Zhou, Y. N. (2017). Utilizing Co2+/Co3+ Redox Couple in P2‐Layered Na0. 66Co0. 22Mn0. 44Ti0. 34O2 Cathode for Sodium‐Ion Batteries. Advanced Science, Volume 4, Issue 11, 1700219., 2017 Линк
1697. Liu, D., & Palmore, G. T. R. (2017). Synthesis, Crystal Structure, and Electrochemical Properties of Alluaudite Na1. 702Fe3 (PO4) 3 as a Sodium-Ion Battery Cathode. ACS Sustainable Chemistry & Engineering 5 (7), pp 5766–5771., 2017 Линк
1698. Ye, S.; Li, Zh.; Song, T.; Cheng, D.; Xu, Q.; Liu, H.; Wang, Y. (2017) "Self-generated hollow NaTi2(PO4)3 nanocubes decorated with graphene as a large capacity and long lifetime anode for sodium-ion batteries", RSC Advances 7, 56743-56751, 2017 Линк
1699. Zhu, H., Wang, J., Liu, X., & Zhu, X. (2017). Facile preparation of a Na 2 MnSiO 4/C/graphene composite as a high performance cathode for sodium ion batteries. RSC Advances, 7(23), 14145-14151., 2017 Линк
1700. FANG, Y. J., CHEN, Z. X., AI, X. P., YANG, H. X., & CAO, Y. L. (2017). Recent Developments in Cathode Materials for Na Ion Batteries. Acta Physico-Chimica Sinica, 33(1), 211-241., 2017 Линк
1701. Мария Лазарова Калъпсъзова, „Натриеви интеркалационни оксиди като катодни материали за екологични йонни батерии”, Докторска дисертация, 2017, Българска академия на науките, София (лит. 198)., 2017
1702. Toumar, A. J. (2017). Phase transformations in layered electrode materials for sodium ion batteries (Doctoral dissertation, Massachusetts Institute of Technology)., 2017 Линк
1703. Sabi, N., Doubajia, S., Hashimotoc, K., Komaba, S., Amined, K., Solhyb, A., Manounb, B., Bilalf, E., Saadoune, I., Layered P2-Na2/3Co1/2Ti1/2O2 as a high-performance cathode material for sodium-ion batteries, Journal of Power Sources, (2017)342, pp. 998–1005., 2017 Линк
page 162/232
496. Kantcheva, M., Cayirtepe, I., Naydenov, A., Ivanov, G.. FT-IR spectroscopic investigation of the effect of SO2 on the SCR of NOx with propene over ZrO2-Nb2O 5 catalyst. Catalysis Today, 176, 1, Elsevier, 2011, DOI:10.1016/j.cattod.2010.10.072, 437-440. ISI IF:3.89
Цитира се в:
1704. Mohammad Mazidi, Reza Mosaybi Behbahani, Ali Fazeli, Ce promoted V2O5 catalyst in oxidation of SO2 reaction, Applied Catalysis B: Environmental, Volume 209, 15 July 2017, Pages 190-202, 2017 Линк
1705. Zafer Say, Oana Mihai, Merve Tohumeken, Kerem Emre Ercan, Louise Olsson and Emrah Ozensoy Sul, fur-tolerant BaO/ZrO2/TiO2/Al2O3 quaternary mixed oxides for deNOX catalysis, Catal. Sci. Technol., 2017, 7, 133-144, 2017 Линк
497. Mandzhukova T., Grigorova E., Khristov M., Tsyntsarski B.. Investigation of the effect of activated carbon and 3d-metal containing additives on the hydrogen sorption properties of magnesium. Materials Research Bulletin, 46, Elsevier, 2011, ISSN:00255408, DOI:10.1016/j.materresbull.2011.08.004, 1772-1776. SJR:0.74, ISI IF:2.288
Цитира се в:
1706. Wang, Z.-M., et al. "The improvement of dehydriding the kinetics of NaMgH3 hydride via doping with carbon nanomaterials". Metals Volume 7 art. no. 9, 2017, 2017 Линк
498. K. Aleksieva, O. Lagunov, K. Dimov, N.D. Yordanov. EPR study on non- and gamma-irradiated herbal pills. Radiation Physics and Chemistry, 80, 6, Elsevier, 2011, DOI:dx.doi.org/10.1016/j.radphyschem.2011.02.022, 767-770. SJR:0.54, ISI IF:1.348
Цитира се в:
1707. M. Özgür Sezer, Necati Kaplan, Ulku Sayin, "ESR analysis of natural and gamma irradiated coriander ( Coriandrum sativum L. ) seeds", Informa UK (Taylor & Francis) in Radiation Effects and Defects in Solids pp 1-9; doi:10.1080/10420150.2017.1402329, 2017 Линк
1708. O.G. Duliu and V. Bercu, "ESR Investigation of the Free Radicals in Irradiated Foods", In book: Electron Spin Resonance in Food Science, pp.17-32, 2017., 2017 Линк
499. Iordanova R., Bachvarova-Nedelcheva A., Dimitriev Y., Iliev Tz.. Mechanochemical synthesis and photocatalytic properties of zinc titanates. Bulgarian Chemical Communications, 43, 3, 2011, 378-382. SJR:0.28, ISI IF:0.349
Цитира се в:
1709. Girish K.M., Prashantha S.C., Nagabhushana H., Facile combustion based engineering of novel white light emitting Zn2TiO4:Dy3+ nanophosphors for display and forensic applications, Journal of Science: Advanced Materials and Devices, 2 (3) (2017) pp. 360-370., 2017 Линк
500. Panchev, I., Delchev, N., Kovacheva, D., Slavov, A.. Physicochemical characteristics of inulins obtained from Jerusalem artichoke (Helianthus tuberosus L.). European Food Research and Technology, 233, 5, 2011, ISSN:1438-2377, DOI:10.1007/s00217-011-1584-8, 889-896. ISI IF:1.559
Цитира се в:
1710. Apolinário, Alexsandra Conceição, et al. "Extraction, isolation and characterization of inulin from Agave sisalana boles." Industrial Crops and Products 108 (2017): 355-362., 2017 Линк
1711. Zhao, Xuhao. Functionality of Jerusalem Artichoke Derived Inulin in Vietnamese Coffee and Developing a Novel Food Grade Microemulsion System. Diss. Carleton University Ottawa, 2017., 2017 Линк
page 163/232
1712. Gao Kai, et al. Effects of top removal on C, N, P stoichiometry in Jerusalem artichoke organs. Acta Ecology, vol.37 No12 (2017) 4142-4148., 2017 Линк
1713. Escobar Ledesma, Freddy Rolando. Obtencion de cristales de inulina a partir de cuatro variedades de plantas de cultivo no tradicional del Ecuador. BS thesis. Quito, 2017., 2017., 2017 Линк
501. L. Dimitrov, Mihaylov, M., Hadjiivanov , K., V. Mavrodinova. Catalytic Properties and Acidity of ZSM-12 Zeolite with Different Textures. Microporous and Mesoporous Materials, 143, 2-3, Elsevier, 2011, DOI:doi:10.1016/j.micromeso.2011.03.009, 291-301. ISI IF:3.453
Цитира се в:
1714. Y. Zhao, H. Zhang, P. Wang, F. Xue, Z. Ye, Y. Zhang and Y. Tang, Tailoring the Morphology of MTW Zeolite Mesocrystals: Intertwined Classical/Nonclassical Crystallization, Chem. Mater., 29 (2017) 3387 [ISI]., 2017 Линк
1715. S.L. Alencar, Sínteses das zeolitas ZSM-12: Avaliação de parâmetros e seus efeitos na cristalização, Ph. D. Thesis, Northwestern University, Evanston, USA, 2017 [GS]., 2017 Линк
502. Tsoncheva, T., Dal Santo, V., Gallo, A., Scotti, N., Dimitrov, M., Kovacheva, D.. Structure and catalytic activity of hosted in mesoporous silicas copper species: Effect of preparation procedure and support pore topology. Applied Catalysis A: General, 406, 1-2, 2011, ISSN:0926-860X, DOI:10.1016/j.apcata.2011.07.034, 13-21. ISI IF:3.942
Цитира се в:
1716. Wang, Xinlei, et al. "Cu/ZnO/SiO 2 catalyst synthesized by reduction of ZnO-modified copper phyllosilicate for dimethyl ether steam reforming." Applied Catalysis A: General 540 (2017): 37-46., 2017 Линк
1717. Wang, X.-L., Ma, K., Guo, L.-H., Ding, T., Cheng, Q.-P., Tian, Y., Li, X.-G. Catalytic performance for hydrogen production through steam reforming of dimethyl ether over silica supported copper catalysts synthesized by ammonia evaporation method (2017) Wuli Huaxue Xuebao/ Acta Physico - Chimica Sinica, 33 (8), pp. 1699-1708., 2017 Линк
1718. Sehati, S., and Mohammad Hassan Entezari. "Sono-incorporation of CuO nanoparticles on the surface and into the mesoporous hexatitanate layers: Enhanced Fenton-like activity in degradation of orange-G at its neutral pH." Applied Surface Science 399 (2017): 732-741., 2017 Линк
503. Tzvetkova, Chr., Bozhkov, O., Borisova, L.. Rhenium Phytomining by Alfalfa (Medicago) from Soils of Ore Dressing Regions at Laboratory Conditions. Proceedings of 7 th International Symposium on Technetium and Rhenium- Science and Utilization, July 4-8, 2011, Moscow, Russia, 2011, ISBN:978-5-94691-469-7, 262-264
Цитира се в:
1719. Novo, L. A. B., Castro, P. M. L., Alvarenga, P., Ferreira da Silva, E. "Phytomining of rare and valuable metals". Phytoremediation, pp. 469-486, 2017, 2017
504. Stoyanova R., Barra, A.-L., Yoncheva, M., Kuzmanova, E., Zhecheva, E.. Local structure of Mn4+ and Fe3+ spin probes in layered LiAlO2 oxide by modelling of zero-field splitting parameters. Dalton Transactions, 40, RSC, 2011, ISSN:1477-9226, DOI:10.1039/C1DT10929D, 9106-9115. ISI IF:4.177
Цитира се в:
1720. Zheng, X. Y., Zhang, H., Wang, Z., Liu, P., Du, M. H., Han, Y. Z., ... & Long, L. S. (2017). Insights into Magnetic Interactions in a Monodisperse Gd12Fe14 Metal Cluster, Angewandte Chemie International Edition, Volume 56, Issue 38, September 11, 2017,
page 164/232
Pages 11475–11479., 2017 Линк
505. G. Vayssilov, Mihaylov, M., P. Petkov, Hadjiivanov , K., K.M. Neyman. Reassignment of the Vibrational Spectra of Carbonates, Formates and Related Surface Species on Ceria: A Combined Density Functional and Infrared Spectroscopy Investigation. J. Phys. Chem., C, 115, 47, American Chemical Society, 2011, DOI:10.1021/jp208050a, 23435-23454. ISI IF:4.772
Цитира се в:
1721. J. Mañogil, Desarrollo de catalizadores basados en Cu/ceria-zirconia para la combustion de carbonilla y eliminacion de NOx en motores diesel, Ph. D. Thesis, Universidad de Alicante, Alicante, Spain, 2017 [GS]., 2017 Линк
1722. D. Demir, Carbon Monoxide Adsorbtion and Carbon Monoxide Oxidation Studies on Thiolate Supported Gold Nanoclusters Dispensed on Metallic Oxides, Ph. D. Thesis, Technischen Universität Wien, Wien, Austria, 2017 [GS]., 2017 Линк
1723. K. Kim and J.W. Han, Mechanistic study for enhanced CO oxidation activity on (Mn, Fe) co-doped CeO2(111), Catal. Today 293-294 (2017) 82-88, 2017 Линк
1724. S. Bashir and H. Idriss, Mechanistic study of the role of Au, Pd and Au–Pd in the surface reactions of ethanol over TiO2 in the dark and under photo-excitation, Catal. Sci. Technol., 7 (2017) 5301-5320, 2017 Линк
1725. M. Bugnet, S.H. Overbury, Z. Wu and T. Epicier, Direct Visualization and Control of Atomic Mobility at {100} Surfaces of Ceria in the Environmental Transmission Electron Microscope , Nano Lett., ASAP (2017) 17 (12), pp 7652–7658, 2017 Линк
1726. J.S. Elias, K.A. Stoerzinger, W.T. Hong, M. Risch, L. Giordano, A.N. Mansour and Y. Shao-Horn, In Situ Spectroscopy and Mechanistic Insights into CO Oxidation on Transition-Metal-Substituted Ceria Nanoparticles, ACS Catal., 7 (2017) 6843-6857, 2017 Линк
1727. J. Henych, M. Kormunda, M. Stastny, P. Janoš, P. Vomáčka, J. Matoušek and V. Štengl, Water-based synthesis of TiO2/CeO2 composites supported on plasma-treated montmorillonite for parathion methyl degradation, Appl. Clay Sci., 144 (2017) 26-35, 2017 Линк
1728. W. Ji, Sedimentary Responses to Growth Fault Slip and Clay Shrink and Swell Induced Elevation Variations: East Matagorda Peninsula, Texas, Ph. D. Thesis, University of Kentucky, Lexington, USA, 2017, 2017 Линк
1729. B. Milberg, A. Juan and B. Irigoyen, Redox behavior of a low-doped Pr-CeO2(111) surface. A DFT+U study, Appl. Surf. Sci., 401 (2017) 206-217, 2017 Линк
1730. T.R. Sahoo, M. Armandi, R. Arletti, M. Piumetti, S. Bensaid, M. Manzoli, S.R. Panda, B. Bonelli, Pure and Fe-doped CeO2 nanoparticles obtained by microwave assisted combustion synthesis: Physico-chemical properties ruling their catalytic activity towards CO oxidation and soot combustion, Appl. Catal. B, 211 (2017) 31-45, 2017 Линк
1731. C. Slostowski, S. Marre, P. Dagault, O. Babot, T. Toupance and C. Aymonier, CeO2 nanopowders as solid sorbents for efficient CO2 capture/release processes, J. CO2 Util., 20 (2017) 52-58, 2017 Линк
1732. Y. Wang, D. Widmann, M. Wittmann, F. Lehnert, D. Gu, F. Schüthb and R.J. Behm, High activity and negative apparent activation energy in low-temperature CO oxidation – present on Au/Mg(OH)2, absent on Au/TiO2, Catal. Sci. Technol., 7 (2017) 4145-4161, 2017 Линк
1733. Y. Wang, Next Generation Automotive DeNOX Catalysts: Ceria What Else?, Ph. D. Thesis, (ISBN 978-94-6186-859-6) Delft University of Technology, Delft, The Netherlands, 2017, 2017 Линк
1734. S. Wrabetz, Lecture Series: Modern Methods in Heterogeneous Catalysis, Fritz Haber Institute, Berlin, Germany, 2017 [GS]., 2017 Линк
page 165/232
1735. A.F.F. de Lima, P.C. Zonetti, C.P. Rodrigues and L.G. Appel, The first step of the propylene generation from renewable raw material: Acetone from ethanol employing CeO 2 doped by Ag, Catal. Today, 279 (2017) 252–259, 2017 Линк
1736. A. Westermann, B. Azambre, M. Bacariza, I. Graça, M. Ribeiro, J. Lopes and C. Henriques, The promoting effect of Ce in the CO 2 methanation performances on NiUSY zeolite: A FTIR In Situ/Operando study, Catal. Today, 283 (2017) 74–81, 2017 Линк
1737. S.-Y. Zhao, S.-P. Wang, Y.-J. Zhao, X.-B. Ma, An in situ infrared study of dimethyl carbonate synthesis from carbon dioxide and methanol over well-shaped CeO 2, Chin. Chem. Lett., 28 (2017) 65–69, 2017 Линк
1738. C. Schilling and C. Hess, CO Oxidation on Ceria Supported Gold Catalysts Studied by Combined Operando Raman/UV–Vis and IR Spectroscopy, Top. Catal., 60 (2017) 131–140, 2017 Линк
1739. A. M. Abdel-Mageed, G. Kucerova, J. Bansmann and R.J. Behm, Active Au Species During the Low-Temperature Water Gas Shift Reaction on Au/CeO2: A Time-Resolved Operando XAS and DRIFTS Study, ACS Catal., 7 (2017) 6471-6484, 2017 Линк
506. Ivanova, S., Zhecheva, E., Stoyanova, R., Nihtianova, D., Wegner, S., Tzvetkova, P., Simova, S.. High-voltage LiNi 1/2Mn 3/2O 4 spinel: Cationic order and particle size distribution. Journal of Physical Chemistry C, 115, 50, 2011, ISSN:1932-7447, 25170-25182. ISI IF:4.772
Цитира се в:
1740. Мария Лазарова Калъпсъзова, „Натриеви интеркалационни оксиди като катодни материали за екологични йонни батерии”, Докторска дисертация, 2017, Българска академия на науките, София (лит. 262)., 2017
1741. Luo, D., Fang, S., Yang, L., & Hirano, S. I. (2017). Unraveling the effect of exposed facets on voltage decay and capacity fading of Li-rich layered oxides. Journal of Power Sources, 364, 121-129., 2017 Линк
1742. Lee, J., Dupre, N., Avdeev, M., & Kang, B. (2017). Understanding the cation ordering transition in high-voltage spinel LiNi 0.5 Mn 1.5 O 4 by doping Li instead of Ni. Scientific Reports, 7(1) (2017), 6728., 2017 Линк
1743. Meng, J., Wang, Z., Xu, L., Xu, H., Zhang, S., & Yan, Q. (2017). Enhanced Structural Stability and Improved Electrochemical Performance of Layered Lithium-Rich Cathode Materials via Tellurium Doping. Journal of The Electrochemical Society, 164(12), A2594-A2602., 2017 Линк
1744. Kim, K. J., Koh, T. Y., Park, J., & Park, J. Y. (2017). Effects of Octahedral Ni 2+ on Structural and Transport Properties of NixFe 3-x O₄ Thin Films. Journal of Magnetics, 22(3), 360-363., 2017 Линк
1745. He, L., Xu, J. M., Wang, Y. J., & Zhang, C. J. (2017). LiFePO4-Coated Li1. 2Mn0. 54Ni0. 13Co0. 13O2 as Cathode Materials with High Coulombic Efficiency and Improved Cyclability for Li-Ion Batteries. Acta Physico-Chimica Sinica, 33(8), 1605-1613., 2017 Линк
1746. | Lei Xu Junmin Wang Jian Chang-Jin, LiFePO4-coated Li1.2Mn0.54Ni0.13Co0.13O2 Lithium-ion battery Cathode Materials: Enhanced Coulombic Efficiency and Cycle Performance, "Physical Chemistry" 2017, No. 8, 1605-1613., 2017 Линк
507. Todorova, S., Naydenov, A., Kolev, H., Tenchev, K., Ivanov, G., Kadinov, G.. Effect of Co and Ce on silica supported manganese catalysts in the reactions of complete oxidation of n-hexane and ethyl acetate. Journal of Materials Science, 46, 22, Springer, 2011, ISSN:0022-2461, DOI:10.1007/s10853-011-5647-9, 7152-7159. ISI IF:2.31
Цитира се в:
1747. R. N. Ivanova, T. S. Tsoncheva, Total oxidation of ethyl acetate on nanostructured
page 166/232
manganese-cerium oxide catalysts supported on mesoporous silica, Bulgarian Chemical Communications, Volume 49, Special Edition B (pp. 176–182) 2017, 2017 Линк
508. Mihaylov, M., T. Tsoncheva, Hadjiivanov , K.. Structure Sensitivity of Methanol Decomposition on Ni/SiO2 Catalysts. Journal of Materials Science, 46, 22, Springer US, 2011, ISSN:0022-2461, DOI:10.1007/s10853-011-5437-4, 7144. ISI IF:2.371
Цитира се в:
1748. C.M.A. Parlett, A. Aydin, L.J. Durndell, L. Frattini, M.A. Isaacs, A.F. Lee, X. Liu, L. Olivi, R. Trofimovaite, K. Wilson and C. Wu, Tailored mesoporous silica supports for Ni catalysed hydrogen production from ethanol steam reforming, Catal. Commun., 91 (2017) 76-79, 2017 Линк
1749. S.B. Bagherzadeh and M. Haghighi, Plasma-enhanced comparative hydrothermal and coprecipitation preparation of CuO/ZnO/Al2O3 nanocatalyst used in hydrogen production via methanol steam reforming, Energy Convers. Manag., 142 (2017) 452 [ISI]., 2017 Линк
1750. A.C. Fornari, R.M. Neto, G.G. Lenzi, O.A.A. dos Santos and L.M. de Matos Jorge, Utilization of sol‐gel CuO‐ZnO‐Al2O3 catalysts in the methanol steam reforming for hydrogen production, Can. J. Chem. Eng., 95 (2017) 2258 [ISI]., 2017 Линк
1751. B. Sarkar, W. Kwek, D. Verma and J. Kim, Effective vacuum residue upgrading using sacrificial nickel(II) dimethylglyoxime complex in supercritical methanol, Appl. Catal. A, 545 (2017) 148 [ISI]., 2017 Линк
509. Uzunova E. Density Functional Study of the Stable Oxidation States and the Binding of Oxygen in MO4 Clusters of the 3d Elements. J. Phys. Chem A, 115, ACS, 2011, ISSN:1089-5639, 10665-10674. ISI IF:2.69
Цитира се в:
1752. GL Gutsev, KV Bozhenko, LG Gutsev Transitions from Stable to Metastable States in the Cr2On and Cr2On– Series J. Phys. Chem. A, 2017, 121 (4), pp 845–854, 2017
510. Grigorova E., Mandzhukova Ts., Tsyntsarski B., Budinova T., Khristov M., Tzvetkov P., Petrova B., Petrov N.. Effect of activated carbons derived from different precursors on the hydrogen sorption properties of magnesium. Fuel Processing Technology, 92, Elsevier, 2011, ISSN:0378-7753, 1963-1969. SJR:1.819, ISI IF:3.352
Цитира се в:
1753. Zhang, Bao, et al. "Recent advances in improving performances of the lightweight complex hydrides Li-Mg-N-H system".PROGRESS IN NATURAL SCIENCE-MATERIALS INTERNATIONAL.Volume: 27 Issue: 1 Pages: 21-33, 2017, 2017 Линк
1754. Wang, Z.-M., et al. "The improvement of dehydriding the kinetics of NaMgH3 hydride via doping with carbon nanomaterials". Metals Volume 7 (1), art. no. 9, 2017, 2017 Линк
511. Drenchev, N., P.A. Georgiev, Hadjiivanov , K.. FTIR study of 12C16O and 13C18O coadsorption on Cu–ZSM-5. J. Mol. Catal., A, 341, 1-2, Elsevier, 2011, ISSN:1381-1169, 7-13. ISI IF:3.615
Цитира се в:
1755. M. Cortés-Reyes, E. Finocchio, C. Herrera, M.A. Larrubia, L.J. Alemany and G. Busca, A study of Cu-SAPO-34 catalysts for SCR of NOx by ammonia, Microporous Mesoporous Mater., 241, (2017), pp. 258-265 [ISI]., 2017 Линк
512. Creaven, B. S., Devereux, M., Georgieva, I., Karcz, D., McClean, M., Trendafilova, N., Walsh, M.. Molecular structure and spectroscopic studies on novel complexes of coumarin-3-carboxylic acid with Ni(II), Co(II), Zn(II) and Mn(II) ions based on density functional theory. Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, 84, 1, Elsevier, 2011, 275-285. ISI IF:2.353
page 167/232
Цитира се в:
1756. Dionicio Díaz, J.E., Síntesis y caracterizacion de complejos de cinc(II) con ligandos derivados de la cumarina-3-ácido carboxílico de interés como metalofármacos alternativos en el tratamiento del cánc, Theses (Magíster en Química), Pontificia Universidad Catolica del Perú, 2017 Линк
1757. Dağlı, Ö., Köse, D.A., Avcı, G.A. and Şahin, O., Novel mixed-ligand complexes of coumarilate/N, N′-diethylnicotinamide with some transition metals. (2017) Journal of Thermal Analysis and Calorimetry, 129(3):1389-1402., 2017 Линк
1758. Dağlı, Ö., Köse, D.A., Şahin, O. and Şahin, Z.S., The synthesis and structural characterization of transition metal coordination complexes of coumarilic acid. Journal of (2017) Thermal Analysis and Calorimetry, 128(3):1373-1383., 2017 Линк
1759. Karcz, D. , Starzak, K. , Matwijczuk, A. , Gładyszewska, B. , Matwijczuk, A. , Niewiadomy, A. , Gagoś, M., Otrzymywanie, spektroskopia i właściwości antyoksydacyjne nowych pochodnych 1, 3, 4-tiadiazolu w postaci hybryd tiadiazolo-kumarynowych, Przemysł Chemiczny, 2017 | T. 96, nr 10 | 2157--2161, 2017 Линк
513. Spassova I., Velichkova N., Nihtianova D., Khristova M.. Influence Of Ce Addition On The Catalytic Behavior Of Alumina Supported Cu-Co Catalysts In NO Reduction With CO. Journal of Colloid and Interface Science, 354, 2, 2011, 777-784. ISI IF:3.453
Цитира се в:
1760. T. M. Lima, C. A. Pereira, W. N. Castelblanco, C. M. B. Santos, S. W. da Silva, R. C. Santana, E. A. Urquieta-González, P. P. C. Sartoratto, ChemistrySelect 2017, 2, 11565. 10.1002/slct.201702475, 2017 Линк
1761. Yun, L., Li, Y., Zhou, C., Lan, L., Zeng, M., Mao, M., ... & Zhao, X. (2017). The formation of CuO/OMS-2 nanocomposite leads to a significant improvement in catalytic performance for NO reduction by CO. Applied Catalysis A: General, 530, 1-11., 2017
1762. Liu, K., Yu, Q., Liu, J., Wang, K., Han, Z., Xuan, Y., & Qin, Q. (2017). Selection of catalytically active elements for removing NO and CO from flue gas at low temperatures. New Journal of Chemistry, 41(22), 13993-13999., 2017
1763. Jian, J., Zhang, Q., Wu, X., & Zhou, M. (2017). Isocyanate Formation from Reactions of Early Lanthanide Metal Atoms with NO and CO in Solid Argon. The Journal of Physical Chemistry A, 121(41), 7861-7868., 2017 Линк
514. Tzvetkov, P., Kovacheva, D., Nihtianova, D., Ruskov, T.. Structure stability towards cation substitutions in A2B 2O5 perovskites with crystallographic shear planes. Bulgarian Chemical Communications, 43, 2, 2011, ISSN:0861-9808, 339-345. ISI IF:0.236
Цитира се в:
1764. Liu, Pan, et al. "D-Type Anti-Ferromagnetic Ground State in Ca2Mn2O5." Chinese Physics Letters 34.2 (2017): 027101., 2017 Линк
2012
515. Mirkashemihaghighi, S, Leoin, B., Perez Vincente, C., Tirado, J. L., Stoyanova, R., Yoncheva, M., Zhecheva, E., Saez Puche, R., Arroyo, E. M., Romero De Paz, J.. Lithium storage mechanisms and effect of partial cobalt substitution in manganese carbonate electrodes. Inorganic Chemistry, 51, 10, 2012, ISSN:0020-1669, 5554-5560. ISI IF:4.762
Цитира се в:
1765. Li, C., Hu, X., Tong, W., Yan, W., Lou, X., Shen, M., & Hu, B. (2017). Ultrathin Manganese-
page 168/232
Based Metal–Organic Framework Nanosheets: Low-Cost and Energy-Dense Lithium Storage Anodes with the Coexistence of Metal and Ligand Redox Activities. ACS Applied Materials & Interfaces, 9(35), 29829-29838., 2017 Линк
1766. Mu, Y., Wang, L., Zhao, Y., Liu, M., Zhang, W., Wu, J., ... & Gao, D. (2017). 3D flower-like MnCO3 microcrystals: evolution mechanisms of morphology and enhanced electrochemical performances. Electrochimica Acta, 251, 119-128., 2017 Линк
1767. Xu, D., Liu, W., Zhang, C., Cai, X., Chen, W., Fang, Y., & Yu, X. (2017). Monodispersed FeCO3 nanorods anchored on reduced graphene oxide as mesoporous composite anode for high-performance lithium-ion batteries. Journal of Power Sources, 364, 359-366., 2017 Линк
1768. Shi, S., Zhang, M., Deng, T., Wang, T., & Yang, G. (2017). A facile strategy to construct binder-free flexible carbonate composite anode at low temperature with high performances for lithium-ion batteries. Electrochimica Acta, 246, 1004-1015., 2017 Линк
1769. Yin, J., Ding, Z., Lei, D., Tang, L., Deng, J., Li, B., & He, Y. B. (2017). Zn-substituted CoCO 3 embedded in carbon nanotubes network as high performance anode for lithium-ion batteries. Journal of Alloys and Compounds, 712, 605-612., 2017 Линк
1770. Cao, H. (2017). Synthesis and Applications of Inorganic Nanostructures. John Wiley & Sons, Print ISBN: 978-3-527-34027-9., 2017 Линк
1771. Zhang, C., Xu, D., Chen, W., Ouyang, D., & Yu, X. (2017). Cockscomb-like Mn-doped MnxFe1− xCO3 as anode materials for a high-performance lithium-ion battery. Journal of Applied Electrochemistry, 47(2), 157-166., 2017 Линк
1772. Gao, M. (2017). Synthesis of Manganese-Based Electrode Materials Prepared by a Novel Dynamic Floating Electrodeposition (DFE) Method for Energy Storage Devices (Doctoral dissertation, University of Alberta), Doctoral Thesis., 2017 Линк
1773. Jia, J., & Zhang, P. (2017). Catalytic Decomposition of Airborne Ozone by Mnco3 and Its Mechanism, Ozone: Science & Engineering, Volume 40, Issue 1, Pages 21-28., 2017 Линк
1774. Cao, H. Synthesis, Characterization, and Applications of Two‐Dimensional (2D) Graphene‐Related Nanostructures. Synthesis and Applications of Inorganic Nanostructures, 221-361., 2017 Линк
516. Antonov, V., Georgieva, I., Trendafilova, N., Kovacheva, D., Krezhov, K.. First principles study of structure and properties of La- and Mn-modified BiFeO3. Solid State Sciences, 14, 7, Elsevier, 2012, 782-788. ISI IF:1.839
Цитира се в:
1775. Chandiramouli, R. and Nagarajan V., "First-principles studies on band structure and mechanical properties of BiFeO3 ceramics under high pressure, Processing and Application of Ceramics 11 (2) (2017) 120–126 ., 2017 Линк
1776. Rajan, P.I., Mahalakshmi, S. and Chandra, S. (2017) Establishment of half-metallicity, ferrimagnetic ordering and double exchange interactions in Ni-doped BiFeO 3–A first-principles study. Computational Materials Science, 130, pp.84-90., 2017 Линк
1777. Iyyappa Rajan, P., Mahalakshmi, S., Chandra, S. Establishment of half-metallicity, ferrimagnetic ordering and double exchange interactions in Ni-doped BiFeO3 – A first-principles study (2017) Computational Materials Science, 130, pp. 84-90., 2017 Линк
517. Bozhkov, O., Tzvetkova, Chr., Borisova, L., Briskin, B.. Phytomining: New Method for Rhenium Production. Advanced Materials & Processes, 170, 5, 2012, 34-37. ISI IF:0.389
Цитира се в:
1778. Novo, L. A. B., Castro, P. M. L., Alvarenga, P., Ferreira da Silva, E. "Phytomining of rare and valuable metals". Phytoremediation, pp. 469-486, 2017, 2017
page 169/232
518. Sachse, А., Hulea, V., Kostov, K.L., Marcotte, N., Boltoeva, M.Yu., Belamie, E., Alonso, B.. Efficient mesoporous silica-titania catalysts from cooloidal self-assembly. Chemical Communications, 48, 48, The Royal Society of Chemistry, 2012, ISSN:1359-7345, DOI:10.1039/C2CC35127G, 10648-10650. ISI IF:6.834
Цитира се в:
1779. Elhamifar, D., Yari, O. and Karimi, B., Highly ordered mesoporous organosilica–titania with ionic liquid framework as very efficient nanocatalyst for green oxidation of alcohols. Journal of Colloid and Interface Science, 500, 2017, pp.212-219., 2017 Линк
1780. Tan, S., Ebrahimi, A. and Langrish, T., Template-directed flower-like lactose with micro-meso-macroporous structure. Materials & Design, 117, 2017, pp.178-184, 2017 Линк
1781. Meseck, G.R., Terpstra, A.S. and MacLachlan, M.J., Liquid Crystal Templating of Nanomaterials with Nature’s Toolbox. Current Opinion in Colloid & Interface Science 29, 2017, pp.9-20, 2017 Линк
1782. Wysokowski, M., Kaiser, S. and Jesionowski, T., 2017. Hydrothermal Synthesis of Advanced Chitin-Based Materials. In Extreme Biomimetics (pp. 223-249). Springer International Publishing, 2017 Линк
519. Yoncheva, M., Stoyanova, R., Zhecheva, E., Kuzmanova, E., Sendova-Vassileva, M., Nihtianova, D., Carlier, D., Guignard, M., Delmas, C.. Structure and reversible lithium intercalation in a new P′3-phase: Na2/3Mn1-yFeyO2 (y = 0, 1/3, 2/3). Journal of Materials Chemistry, 22, 44, RSC Publishing, 2012, ISSN:09599428, DOI:10.1039/c2jm35203f, 23418-2342. ISI IF:6.626
Цитира се в:
1783. Ma, T., Xu, G. L., Zeng, X., Li, Y., Ren, Y., Sun, C., ... & Chen, Z. (2017). Solid state synthesis of layered sodium manganese oxide for sodium-ion battery by in-situ high energy X-ray diffraction and X-ray absorption near edge spectroscopy. Journal of Power Sources, 341, 114-121., 2017 Линк
1784. Мария Лазарова Калъпсъзова, „Натриеви интеркалационни оксиди като катодни материали за екологични йонни батерии”, Докторска дисертация, 2017, Българска академия на науките, София (лит. 192)., 2017
1785. Hwang, J. Y., Myung, S. T., & Sun, Y. K. (2017). Sodium-ion batteries: present and future. Chemical Society Reviews 46, 3529-3614., 2017 Линк
1786. Chen, C., Li, G., Zhu, J., Lu, Y., Jiang, M., Hu, Y., ... & Zhang, X. (2017). In-situ formation of tin-antimony sulfide in nitrogen-sulfur Co-doped carbon nanofibers as high performance anode materials for sodium-ion batteries. Carbon 120, 380-391., 2017 Линк
1787. Wang, X., Hu, P., Niu, C., Meng, J., Xu, X., Wei, X., ... & Mai, L. (2017). New-type K 0.7 Fe 0.5 Mn 0.5 O 2 cathode with an expanded and stabilized interlayer structure for high-capacity sodium-ion batteries. Nano Energy, 35, 71-78., 2017 Линк
1788. Marino, C., Marelli, E., & Villevieille, C. (2017). Impact of cobalt content in Na 0.67 Mn x Fe y Co z O 2 (x+ y+ z = 1), a cathode material for sodium ion batteries. RSC Advances, 7(23), 13851-13857., 2017 Линк
1789. Nti, F., & Han, J. I. (2017). Layered Na2/3Ni1/3Mn2/3O2 as electrode material with two redox active transition metals for high performance supercapacitor. Journal of Alloys and Compounds, 728, 78-87., 2017 Линк
520. Vulchev, V., Vassilev, L., Harizanova, S., Khristov, M., Zhecheva. E., Stoyanova, R... Improving of the thermoelectric efficiency of LaCoO 3 by double substitution with nickel and iron. Journal of Physical Chemistry C, 116, 25, 2012, ISSN:1932-7447, 13507-13515. ISI IF:4.772
Цитира се в:
page 170/232
1790. Halder, S., Sheikh, M. S., Ghosh, B., & Sinha, T. P. (2017). Electronic structure and Electrical conduction by polaron hopping mechanism in A 2 LuTaO 6 (A = Ba, Sr, Ca) Double Perovskite Oxides. Ceramics International, Volume 43, Issue 14, 1 October 2017, Pages 11097-11108., 2017 Линк
1791. Özbay, N., Şahin, R.Z.Y., Preparation and characterization of LaMnO3 and LaNiO3 perovskite type oxides by the hydrothermal synthesis method (2017) AIP Conference Proceedings, 1809, art. no. 020040, DOI: 10.1063/1.4975455. ISSN: 0094243X ISBN: 978-073541477-8., 2017 Линк
1792. Behera, S., Kamble, V., Vitta, S., Shivakumara, C., Umarji, A. M, Synthesis, structure and thermoelectric properties of La 1 - x Na x CoO3 perovskite oxides, (2017) Bulletin of Materials Science, 40, Issue 7, 1291-1299., 2017 Линк
521. Kantcheva, M., Milanova, M., Avramova, I., Mametsheripov, S.. Spectroscopic characterization of gold supported on tungstated zirconia. Catalysis Today, 187, 1, 2012, ISSN:0920-5861, 39-47. SJR:1.213, ISI IF:3.893
Цитира се в:
1793. Wang, X., Wu, X., Maeda, N., Baiker, A.Striking activity enhancement of gold supported on Al-Ti mixed oxide by promotion with ceria in the reduction of NO with CO (2017) Applied Catalysis B: Environmental, 209, pp. 62-68., 2017 Линк
522. Uzunov I., Uzunova S., Angelova D., Gigova A.. Effects of the pyrolysis process on the oil sorption capacity of rice husk. J Anal Apll Pyrol, 98, Elsevier, 2012, ISSN:0165-2370, 166-176. SJR:1.593, ISI IF:3.564
Цитира се в:
1794. Ifelebuegu A., Johnson A. "Nonconventional low-cost cellulose- and keratin-based biopolymeric sorbents for oil/water separation and spill cleanup: A review". Environmental Science and Technology , 47, 11, 2017, 946-1001, 2017
1795. Tang S. et al. "Eco-Adsorbents for Organic Solvents and Grease Removal". Handbook of Ecomaterials, 2017, 1-31, 2017
1796. Bandura, Lidia; Woszuk, Agnieszka; Kolodynska, Dorota; et al., Application of Mineral Sorbents for Removal of Petroleum Substances: A Review, MINERALS, 7, 3, 37 (2017), 2017
1797. Acevedo Cortez, Javier S.; Kharisov, Boris I.; Serrano Quezada, Thelma E.; et al., Micro- and nanoporous materials capable of absorbing solvents and oils reversibly: the state of the art, Petroleum Science, 14, (1) (2017) 84-104, 2017
523. Koleva V., Stefov V., Najdoski M., Cahil A.. Vibrational spectra of cobalt dihydrogen phosphate dihydrate, Co(H2PO4)2•2H2O. Vibrational Spectroscopy, 62, Elsevier, 2012, ISSN:0924-2031, 229-237. ISI IF:2.009
Цитира се в:
1798. Muthuselvi, Chandran, Arulanandam Shagaya Princy, and Sankara Sabapathy Pandiarajan. Growth and Characterization of 4-carboxyanilinium Dihydrogen Phosphate Semi-organic Complex Crystal. (2017) Asian Journal of Applied Sciences. 10 (4): 159-169., 2017
524. Stojadinović, S., Radić, N., Vasilić, R., Petković, M., Stefanov, P., Zeković, L., Grbić, B.. Photocatalytic properties of TiO2/WO3 coatings formed by plasma electrolytic oxidation of titanium in 12-tungstosilicic acid. Applied Catalysis B: Environmental, 126, Elsevier, 2012, ISSN:0926-3373, DOI:doi.org/10.1016/j.apcatb.2012.07.031, 334-341. SJR:2.583, ISI IF:9.446
Цитира се в:
page 171/232
1799. Liang Hao et al., "Preparation of Metal Coatings on Steel Balls Using Mechanical Coating Technique and Its Process Analysis", Coatings 2017, 7(4), 53, 2017 Линк
1800. Li, N., Tian, Y., Zhao, J., Zhang, J., Zhang, J., Zuo, W., Ding, Y. "Efficient removal of chromium from water by Mn3O4ZnO/Mn3O4 composite under simulated sunlight irradiation: Synergy of photocatalytic reduction and adsorption" (2017) Applied Catalysis B: Environmental, 214, pp. 126-136., 2017 Линк
1801. Karakurkchi, A., Sakhnenko, M., Ved, M., Galak, A., Petrukhin, S. "Application of oxide-metallic catalysts on valve metals for ecological catalysis" (2017) EasternEuropean Journal of Enterprise Technologies, 5 (10-89), 2017 Линк
525. Ivanova, E., Detcheva, A.. Green Analytical Chemistry and its Perspectives in Bulgaria” (Review article). Bulgarian Chemical Communications, 44, 1, 2012, 5-10. ISI IF:0.32
Цитира се в:
1802. Filippou, O., Bitas, D., Samanidou, V. " Green approaches in sample preparation of bioanalytical samples prior to chromatographic analysis" (2017) Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences Vol. 1043 pp. 44-62, 2017
1803. Yusiasih, R., Nugraha W. C., Hudayya A. "Determination of carbofuran in a river water sample using LC-MS/MS" (2017) IOP Conf. Series: Earth and Environmental Science 60(1) 012024, 2017
1804. Moersilah, S., Siswanta, D., Roto R., Mudasir, M. "PAN-Immobilized PVC-NPOE Membrane for Environmentally Friendly Sensing of Cd(II) Ions" (2017) Indonesian Journal of Chemistry, 17(1), pp. 1 – 6, 2017
526. Dimitriev Y., Iordanova R., Milanova M., Bachvarova-Nedelcheva A., Hassan M., Abdallah M.. Crystallization of ZnO from supercooled melts and glasses. Phys. Chem. Glasses: Eur. J. Glass Sci. Technol. B, 53, 2, Society of Glass Technology, 2012, ISSN:1753-3562, 254-263. ISI IF:0.69
Цитира се в:
1805. Sachuk, Olena, et al. "Influence of Ultrasonic Treatment on the Properties of ZnO-MoO3 Oxide System." Chemistry & Chemical Technology 11 (2) (2017) pp. 152-157., 2017 Линк
527. Nikolova, Kr., Panchev, I., Sainov, S., Gentscheva, G., Ivanova, E.. Selected Physical Properties of Lime Bee Honey in Order to Discriminate Between Pure Honey and Honey Adulterated with Glucose. International Journal of Food Properties, 15, 6, 2012, 1358-1368. ISI IF:0.915
Цитира се в:
1806. Shuifang Li, Xin Zhang, Yang Shan, Donglin Su, Qiang Ma, Ruizhi Wen, Jiaojuan Li (2017) "Qualitative and Quantitative Detection of Honey Adulterated with High-Fructose Corn Syrup and Maltose Syrup by Using Near-Infrared Spectroscopy", FOOD CHEMISTRY, 218, 231-236., 2017 Линк
1807. Food Integrity Database, (2017) A Notebook of Top Peer Reviewed Articles and Papers, Thermo Fisher Scientific Inc., 49., 2017 Линк
528. Kaneva, N., Stambolova, I, Blaskov, V., Dimitriev, Y., Bojinova, A., Dushkin, C.. A comparative study on the photocatalytic efficiency of ZnO thin films prepared by spray pyrolysis and sol–gel method. Surface and Coatings Technology, 207, 2012, 5-10. ISI IF:2.374
Цитира се в:
1808. S Kuriakose et al, Facile synthesis of Au-ZnO plasmonic nanohybrids for highly efficient photocatalytic degradation of methylene blue, Optical Materials, 2017 , vol 64, p 47-52, 2017
page 172/232
1809. M Toubane et al., Sol concentration effect on ZnO nanofibers photocatalytic activity synthesized by sol–gel dip coating metho, Materials Research Express, Volume 4, Number 3 , N 035023, 2017
1810. S Stojadinović, et al., MgO/ZnO coatings formed on magnesium alloy AZ31 by plasma electrolytic oxidation: Structural, photoluminescence and photocatalytic investigation, Surface and Coatings Technology, 310, 2017 , 98-105, 2017
1811. I.A. Pronin, et al., Structural Features of Silica Coating Obtained from Sol Cooled to the Temperature of Liquid Nitrogen, Arabian Journal for Science and Engineering, 42, Issue 10, pp 4299–4305, 2017
1812. T Saidani et al., Influence of precursor source on sol–gel deposited ZnO thin films properties, Journal of Materials Science: Materials in Electronics, 2017, Volume 28, Issue 13, p 9252, 2017
1813. S. S. Nalimova et al., Investigation of the vapor-sensitive properties of zinc oxide layers by impedance spectroscopy, Bulgarian Chemical Communications, Vol. 49, Number 1, 121 – 126 2017, 121, 2017
529. Dimitrovska-Lazova, S., Kovacheva, D., Aleksovska, S., Marinšek, M., Tzvetkov, P.. Synthesis and structural details of perovskites within the series PrCo1–xCrxO3 (x= 0, 0.33, 0.5, 0.67 and 1). 44, Bulg. Chem. Commun, 2012, ISSN:0324-1130, 37-46. ISI IF:0.238
Цитира се в:
1814. Kumar, Surendra, et al. "Structural, magnetic, magnetocaloric and specific heat investigations on Mn doped PrCrO3 orthochromites." Journal of Physics: Condensed Matter 29.19 (2017): 195802., 2017 Линк
1815. Hreb, Vasyl, et al. "Anomalous Thermal Expansion of HoCo0. 5Cr0. 5O3 Probed by X-ray Synchrotron Powder Diffraction." Nanoscale research letters 12.1 (2017): 442., 2017 Линк
530. Gentscheva, G., Petrov, A., Ivanova, E., Havezov, I.. Flame AAS Determination of Trace Amounts of Cu, Ni, Co, Cd and Pd in Waters after preconcentration with 2-Nitroso-1-Naphthol. Bulgarian Chemical Communications, 44, 1, 2012, 52-56. ISI IF:0.32
Цитира се в:
1816. Manan Ahmed, Ying Hui Chin, Xinxin Guo, Xing-Min Zhao (2017) "Microwave assisted digestion followed by ICP-MS for determination of trace metals in atmospheric and lake ecosystem", JOURNAL OF ENVIRONMENTAL SCIENCES, 55, 1–10., 2017
531. González, J.R., Alcántara, R., Nacimiento, F., Ortiz, G.F., Tirado, J.L., Zhecheva, E., Stoyanova, R.. Long-Length Titania Nanotubes Obtained by High-Voltage Anodization and High-Intensity Ultrasonication for Superior Capacity Electrode. Journal of Physical Chemistry C, 116, 38, ACS Publishing, 2012, ISSN:19327447, DOI:10.1021/jp3050115, 20182-20190. ISI IF:4.772
Цитира се в:
1817. Sopha, H., Salian, G. D., Zazpe, R., Prikryl, J., Hromadko, L., Djenizian, T., & Macak, J. M. (2017). ALD Al2O3-Coated TiO2 Nanotube Layers as Anodes for Lithium-Ion Batteries. ACS Omega, 2(6), 2749-2756., 2017 Линк
1818. Scaramuzzo, F. A., Dell’Era, A., Tarquini, G., Caminiti, R., Ballirano, P., & Pasquali, M. (2017). Phase Transition of TiO2 Nanotubes: An X-ray Study as a Function of Temperature. The Journal of Physical Chemistry C, 121(44), 24871-24876., 2017 Линк
532. Chakarova, K., Drenchev, N., Hadjiivanov, K.. FTIR evidence of different bonding of methane to OH groups on H–ZSM-5, HY, and SiO2. Journal of Physical Chemistry C, 116, 2012, DOI:10.1021/jp3052592, 17101-17109. ISI IF:4.814
page 173/232
Цитира се в:
1819. C. Tian, J. Zhao, J. Zhang, S. Chu, Z. Dang, Z. Lin, B. Xing, "Enhanced removal of roxarsone by Fe3O43D graphene nanocomposites: synergistic adsorption and mechanism", Environmental Science: Nano, 4 (2017) 2134-2143., 2017 Линк
533. Todorova, S., Naydenov, A., Kolev, H., Holdago, J. P., Ivanov, G., Kadinaov, G., Caballero, A.. Mechanism of complete n-hexane oxidation on silica supported cobalt and manganese catalysts. Applied Catalysis A: General, 413-414, Elsevier, 2012, DOI:10.1016/j.apcata.2011.10.041, 43-51. ISI IF:3.94
Цитира се в:
1820. Laura Uson, Jose L.Hueso, Victor Sebastian, Raul ArenalcdIlean, Floreaef SilviaIrusta, Manuel Arruebo, Jesus Santamaria, In-situ preparation of ultra-small Pt nanoparticles within rod-shaped mesoporous silica particles: 3-D tomography and catalytic oxidation of n-hexane, Catalysis Communications, Volume 100, September 2017, Pages 93-97, 2017 Линк
1821. Damian K.Chlebda, Przemysław J.Jodłowski, Roman J.Jędrzejczyk, JoannaŁojewska, 2D-COS of in situ μ-Raman and in situ IR spectra for structure evolution characterisation of NEP-deposited cobalt oxide catalyst during n-nonane combustion, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, Volume 186, 5 November 2017, Pages 44-51, 2017 Линк
1822. Chlebda DK, Jędrzejczyk RJ, Jodłowski PJ, Łojewska J., Surface structure of cobalt, palladium, and mixed oxide-based catalysts and their activity in methane combustion studied by means of micro-Raman spectroscopy, J Raman Spectrosc. 2017;1–10, 2017 Линк
534. Detcheva, A., Hassler, J., Georgieva, R.. Feasibility of ETV-ICP-OES for characterization of archaeological glasses. Analytical Letters, 45, 5-6, Taylor and Francis, 2012, ISSN:ISSN 0003-2719, DOI:DOI: 10.1080/00032719.2011.649463, 603-612. ISI IF:1.016
Цитира се в:
1823. Limbeck, A., et al. " Improvements in the direct analysis of advanced materials using ICP-based measurement techniques" Journal of Analytical Atomic Spectrometry, 32 (2), pp. 212-232, 2017, 2017
535. Stambolova I., Blaskov, V., Shipochka, M., Vassilev, S., Petkova, V., Loukanov, A.. Simple way for preparation of ZnO films by surfactant mediated spray pyrolysis. Materials Science and Engineering B Materials for Advanced Technology, 177, 13, Elsevier, 2012, ISSN:0921-5107, 1029-1037. SJR:0.715, ISI IF:1.846
Цитира се в:
1824. Hao, C., Wang, J., Cheng, Q., (...), Wang, X., Yang, Y. 2017 Journal of Photochemistry and Photobiology A: Chemistry 332, pp. 384-390, 2017
1825. Hao, Chen, et al. "Anionic surfactants-assisted solution-phase synthesis of ZnO with improved photocatalytic performance." Journal of Photochemistry and Photobiology A: Chemistry 332 (2017): 384-390., 2017 Линк
1826. Kun, Robert, et al. "Role of the precursor chemistry on the phase composition and electrochemical performance of thin-film LiMn2O4 Li-ion battery cathodes prepared by spray pyrolysis." Journal of Alloys and Compounds 726 (2017): 664-674., 2017 Линк
536. Ivanova, J., Pantcheva, I.N., Zhorova, R., Momekov, G., Simova, Sv., Stoyanova, R., Zhecheva, E., Ivanova, S., Mitewa, M.. Synthesis, Spectral Properties, Antibacterial and Antitumor Activity of Salinomycin Complexes with the Transition Metal Ions Co(II), Ni(II), Cu(II) and Zn(II). Journal of
page 174/232
Chemistry and Chemical Engineering, 6, 6, David Publishing Company, 2012, ISSN:1934-7375, DOI:10.17265/1934-7375/2012.06.010, 551-562
Цитира се в:
1827. Dewangan, J., Srivastava, S., & Rath, S. K. (2017). Salinomycin: A new paradigm in cancer therapy. Tumor Biology, 39(3), 1010428317695035., 2017 Линк
537. Tsoncheva, T., Gallo, A., Scotti, N., Dimitrov, M., Delaigle, R., Gaigneaux, E.M., Kovacheva, D., Dal Santo, V., Ravasio, N.. Optimization of the preparation procedure of cobalt modified silicas as catalysts in methanol decomposition. Applied Catalysis A: General, 417-418, 2012, ISSN:0926860, DOI:10.1016/j.apcata.2011.12.042, 209-219. ISI IF:3.942
Цитира се в:
1828. Stadnik, Andreia, Filipe Q. Mariani, and Fauze J. Anaissi. "Effects of precursor salt on colloidal cobalt oxyhydroxides composition and its application in non-enzymatic glucose." South African Journal of Chemistry 70 (2017): 137-144., 2017 Линк
1829. Fornari, A.C., Menechini Neto, R., Lenzi, G.G., dos Santos, O.A.A., de Matos Jorge, L.M. Utilization of sol-gel CuO-ZnO-Al2O3 catalysts in the methanol steam reforming for hydrogen production (2017) Canadian Journal of Chemical Engineering, 95 (12), pp. 2258-2271., 2017 Линк
538. Stambolova I., Shipochka M., Blaskov V., Loukanov A., Vassilev S.. Sprayed nanostructured TiO2 films for efficient photocatalytic degradation of textile azo dye. Journal of Photochemistry and Photobiology B: Biology, 117, Elsevier, 2012, ISSN:1011-1344, 19-26. SJR:0.774, ISI IF:3.11
Цитира се в:
1830. Lee, Sin-Li, et al. "A highly efficient immobilized ZnO/Zn photoanode for degradation of azo dye Reactive Green 19 in a photocatalytic fuel cell." Chemosphere 166 (2017): 118-125., 2017 Линк
539. Bachvarova-Nedelcheva A., Iordanova R., Kostov K. L., Yordanov St., Ganev V.. Structure and properties of a non-traditional glass containing TeO2, SeO2 and MoO3. Optical Materials, 34, 11, 2012, ISSN:0925-3467, 1781-1787. SJR:0.82, ISI IF:1.52
Цитира се в:
1831. Lakshminarayana, G., Baki, S.O., Lira, A. et al., X-ray photoelectron spectroscopy (XPS) and radiation shielding parameters investigations for zinc molybdenum borotellurite glasses containing different network modifiers, J Mater Sci , 52 (12) (2017) pp 7394-7414., 2017 Линк
1832. Mao G., Cai Qin, Wang F., Luo Changliang, Ji Xinghu, and He Zhike, One-step Synthesis of Rox-DNA Functionalized CdZnTeS Quantum Dots for the Visual Detection of Hydrogen Peroxide and Blood Glucose, Anal. Chem., 89 (21) (2017) pp 11628–11635., 2017 Линк
540. Dostanić, J., Grbić, B,, Radić, N., Stefanov, P.,, Šaponjić, Z., Buha, J., Mijin, D. Photodegradation of an azo pyridone dye using TiO 2 films prepared by the spray pyrolysis method. Chemical Engineering Journal, 180, Elsevier, 2012, ISSN:13858947, DOI:10.1016/j.cej.2011.10.100, 57-65. SJR:1.743, ISI IF:5.31
Цитира се в:
1833. Fugare, B.Y., Ingole, R.S., Lokhande, B.J. "Substrate material dependant structural, morphological and electrochemical behavior of spray pyrolysed titanium oxide thin films via partially aqueous route" (2017) Journal of Materials Science: Materials in Electronics, 28 (12), pp. 9017-9023., 2017 Линк
page 175/232
1834. Latha, P., Prakash, K., Karuthapandian, S. "Enhanced visible light photocatalytic activity of CeO2/alumina nanocomposite: Synthesized via facile mixing-calcination method for dye degradation" (2017) Advanced Powder Technology, 28 (11), pp. 2903-2913., 2017 Линк
541. Georgieva, I., Danchova, N., Gutzov, S., Trendafilova, N.. DFT modeling, UV/Vis and IR spectroscopic study of acetylacetone - modified zirconia sol-gel materials. Journal of Molecular Modeling, 18, Springer-Verlag, 2012, ISSN:1610-2940, DOI:10.1007/s00894-011-1257-3, 2409-2422. ISI IF:1.736
Цитира се в:
1835. Chen, W., Xu, L., Feng, X., Jie, J., He, Z. , Metal Acetylacetonate Series in Interface Engineering for Full Low-Temperature-Processed, High-Performance, and Stable Planar Perovskite Solar Cells with Conversion Efficiency over 16% on 1 cm2 Scale, Advance Materials, 29 (16) 1603923, 2017., 2017 Линк
1836. Ke, Q., Sun, T., Cheng, H., Chen, H., Liu, X., Wei, X., Wang, S. , Targeted Synthesis of Ultrastable High-Silica RHO Zeolite Through Alkali Metal–Crown Ether Interaction, Chemistry - An Asian Journal, 12 (10), 1043-1047, 2017., 2017 Линк
1837. Bollino, F., Armenia, E., Tranquillo, E. , Zirconia/hydroxyapatite composites synthesized via sol-gel: Influence of hydroxyapatite content and heating on their biological properties, 2017, Materials(Basel), 10 (7), E757., 2017 Линк
1838. Dong, X., Xia, G., Zhang, Q., Li, L., Gong, H. Bi, J., Wang, S. , Room-temperature UV-ozone assisted solution process for zirconium oxide films with high dielectric properties, Ceramics International 43(17), 15205-15213, 2017., 2017 Линк
1839. Ciprioti, S.V., Bollino, F., Tranquillo, E. and Catauro, M. Synthesis, thermal behavior and physicochemical characterization of ZrO2/PEG inorganic/organic hybrid materials via sol–gel technique. (2017) Journal of Thermal Analysis and Calorimetry, 130(1) pp. 535–540., 2017 Линк
1840. Jaafar, N.F., Jalil, A.A., Triwahyono, S., Visible-light photoactivity of plasmonic silver supported on mesoporous TiO2 nanoparticles (Ag-MTN) for enhanced degradation of 2-chlorophenol: Limitation of Ag-Ti interaction, 2017 Applied Surface Science, 392, pp. 1068-1077., 2017 Линк
1841. Bačić, I., Mandić, V., Ćurković, L., Otmačić-Ćurković, H. and Kurajica, S. (2017) Thermal and structural studies of sol–gel-derived yttria-doped ZrO2 nanoparticles. Journal of Thermal Analysis and Calorimetry, 127(1), pp.197-206., 2017 Линк
542. Spassova I., Tsoncheva T., Velichkova N., Khristova M., Nihtianova D.. Catalytic Reduction of NO with Decomposed Methanol on Alumina- Supported Mn-Ce Catalysts. Journal of Colloid and Interface Science, 374, 1, Elsevier, 2012, 267-277. ISI IF:3.368
Цитира се в:
1842. Fornari, A. C., Menechini Neto, R., Lenzi, G. G., dos Santos, O. A. A., Jorge, M., & Mario, L. (2017). Utilization of sol‐gel CuO‐ZnO‐Al2O3 catalysts in the methanol steam reforming for hydrogen production. The Canadian Journal of Chemical Engineering, 95(12), 2258-2271., 2017 Линк
1843. Pang, C., Zhuo, Y., & Weng, Q. (2017). Mn/SAPO-34 as an efficient catalyst for the low-temperature selective catalytic reduction of NO x with NH 3. RSC Advances, 7(51), 32146-32154., 2017 Линк
543. Stoyanova A., Bachvarova-Nedelcheva A., Iordanova R., Ivanova N., Hitkova H., Sredkova M.. Synthesis, photocatalytic and antibacterial properties of nanosized ZnTiO3 powders obtained by different sol–gel methods. Digest Journal of Nanomaterials and Biostructures, 7, 2, 2012, ISSN:1842 - 3582, 777-784. ISI IF:0.202
page 176/232
Цитира се в:
1844. Vignesh K., Vijayalakshmi K. A. & Karthikeyan N., Sol-gel synthesis and antibacterial study on BC/ZnO/TiO2 nanocomposite treated by DC glow discharge plasma, Journal of Adhesion Science and Technology, 31 (10) (2017), pp. 1075-1086., 2017 Линк
1845. Sobhani-Nasab A., Zahraei Z., Akbari M., Maddahfar M., Mostafa Hosseinpour-Mashkani S., Synthesis, characterization, and antibacterial activities of ZnLaFe2O4/NiTiO3 nanocomposite, Journal of Molecular Structure, 1139 (2017) pp 430–435., 2017 Линк
544. Ghelev, Ch., Koutzarova, T., Kolev, S., Nedkov, I., Krezhov, K., Kovacheva, D., Blagoev, B., Vertruyen, B., Henrist, C., Cloots, R., Zaleski, A., Nizhankovskii, V.. Magnetic properties of nanosized MgFe 2O 4 powders prepared by auto-combustion. Journal of Physics: Conference Series, 356, 1, IOP Publishing Ltd., 2012, ISSN:1742-6588, DOI:10.1088/1742-6596/356/1/012048, art. no.-012048. ISI IF:0.298
Цитира се в:
1846. Bazhan, Z., F. E. Ghodsi, and J. Mazloom. "Modified voltammetric, impedimetric and optical behavior of polymer-assisted sol-gel MgFe2O4 nanostructured thin films." Electrochimica Acta 250 (2017): 143-151., 2017 Линк
545. Hitkova H, Stoyanova A., Ivanova N., Sredkova M., Iordanova R., Bachvarova-Nedelcheva A.. Study of antibacterial activity of nonhydrolytic synthesized TiO2 against E. coli, P. aeruginosa and S. aureus. J. Optoel. Biomed. Materials, 4, 1, 2012, ISSN:2066-0049, 9-17
Цитира се в:
1847. Sobhani-Nasab A., Zahraei Z., Akbari M., Maddahfar M., Mostafa Hosseinpour-Mashkani S., Synthesis, characterization, and antibacterial activities of ZnLaFe2O4/NiTiO3 nanocomposite, Journal of Molecular Structure, 1139 (2017) pp 430–435., 2017 Линк
1848. Yemmireddy V. K. , Hung Yen-Con, Comprehensive Reviews in Food Science and Food Safety, Using Photocatalyst Metal Oxides as Antimicrobial Surface Coatings to Ensure Food Safety-Opportunities and Challenges, 16 (4) (2017) pp. 617-631., 2017 Линк
546. Atanasova, G., Dikovska, A. Og., Stankova, M., Stefanov, P., Atanasov, P. A.. XPS study of ZnO nanostructures prepared by laser ablation. Journal of Physics: Conference Series, 356, 1, 2012, ISSN:17426588, DOI:doi:10.1088/1742-6596/356/1/012036, 012036. SJR:0.217
Цитира се в:
1849. Nidaa Taha Yaseen, Design and Fabrication of Antireflection ZnO Thin Film by Using Different Techniques, PhD, Republic of Iraq, Ministry of Higher Education and Scientific Research, AL-Nahrain University, College of Science, Department of physics, 2017, 2017 Линк
1850. Ghazai, A.; Aziz, W.; Yassen, N. Effect of Laser Pulses and Energy on the Structural Properties of ZnO Thin Film Prepared Using PLA Technique. Preprints 2017, 2017040017 (doi: 10.20944/preprints201704.0017.v1)., 2017
547. A. Gallo, T. Tsoncheva, M. Marelli, Mihaylov, M., M. Dimitrov, V. Dal Santo, Hadjiivanov , K.. Size Controlled Copper Nanoparticles Hosted in Mesoporous Silica Matrix: Preparation and Characterization. Applied Catalysis B: Environmental, 126, Elsevier, 2012, DOI:doi:10.1016/j.apcatb.2012.07.022, 161-171. ISI IF:7.435
Цитира се в:
1851. B. Carpinteiro-Carreto, B. M. Marín-Santibáñez, J. Pérez-González, F. Rodríguez-González, H.J. Dorantes-Rosales and R. Sánchez, Iron nanoparticles on colloidal substrates, Colloid Polymer Sci., 295 (2017) 37–43, 2017 Линк
1852. A. Kharchenko, Properties of copper species stabilized in zeolite nanocrystals, Ph. D.
page 177/232
Thesis, University of Normandy, Caen, France, 2017, 2017 Линк
1853. N. Barot, T. Shaikh and H. Kaur, A PLA–TiO 2 particle brush as a novel support for CuNPs: a catalyst for the fast sequential reduction and N-arylation of nitroarenes, New. J. Chem., 41 (2017) 5347 [ISI]., 2017 Линк
1854. S. Kalidhasan, M. Ben-Sasson, I. Dror, R. Carmieli, E.M. Schuster and B. Berkowitz, Oxidation of aqueous organic pollutants using a stable copper nanoparticle suspension, Can. J. Chem. Eng., 95 (2017) 343 [ISI]., 2017 Линк
1855. L. Wolski, I. Sobczak and M. Ziolek, Development of multifunctional gold, copper, zinc, niobium containing MCF catalysts–Surface properties and activity in methanol oxidation, Microporous Mesoporous Mater., 243 (2017) 339 [ISI]., 2017 Линк
1856. N.V. Barot, Metal nanoparticles synthesis characterization and application to organic synthesis, Ph. D. Thesis, Gujarat University, Ahmedabad, India, 2017 [GS]., 2017
548. Dimitriev, Y., Ivanova, Y., Aly, A.M.T, Gancheva, M., Iordanova, R.. Formation of nanometer Ag and Cu particles in the float glasses after heat-treatment. Journal of the University of Chemical Technology and Metallurgy, 47, 4, University of Chemical Technology and Metallurgy, 2012, ISSN:1311-7629, 415-420
Цитира се в:
1857. Chorfa, A., et al. "Coloration and structure behavior after silver and copper nanoparticles formation in soda lime glass." Materialwissenschaft und Werkstofftechnik 48.11 (2017): 1166-1172., 2017 Линк
549. Tepavitcharova, S, Rabadjieva, D, Havlicek, D, Nemec, I, Vojtisek, P, Plocek, J, Koleva, Z. Crystallization and characterization of the compounds Gly.MSO4.mH2O (M = Mg 2+, Mn 2+, Fe 2+, Co 2+, Ni 2+, Zn 2+; m = 0, 3, 5, 6). Journal of Molecular Structure, 1018, Elsevier, 2012, ISSN:0022-2860, DOI:10.1016/j.molstruc.2012.02.068, 113-121. SJR:0.405, ISI IF:1.602
Цитира се в:
1858. Gasque, Laura; Lopez-Rosales, Adan; Bernes, Sylvain; et al., Bioinspired Co(II) and Zn(II) complexes with an imidazole derived tripodal ligand. Structural models for astacins and MnSOD, POLYHEDRON, 127, pp. 167-175, 2017, 2017 Линк
1859. Sebastian Bette, Bernd Hinrichsen, Robert E. Dinnebi, On Two Glycine Zinc Sulfate Phases with Exotic Cation Coordination Geometries, Zeitschrift für anorganische und allgemeine Chemie, 643: 1855–1860, DOI: 10.1002/zaac.201700217, 2017, 2017 Линк
1860. Jesús Clemente Villalba, ESTUDIO DE QUELADOS DE GLICINA MEDIANTE ESPECTROSCOPÍA FTIR, TRABAJO FIN DE MÁSTER UNIVERSITARIO EN TECNOLOGÍAS, FACILITADORAS PARA LA INDUSTRIA ALIMENTARIA Y DE BIOPROCESOS, UNIVERSITAT POLITÉCNICA DE CATALUÑA, 2017, 2017 Линк
550. Kovacheva, D., Ruskov, T., Krystev, P., Asenov, S., Tanev, N., Mönch, I., Koseva, R., Wolff, U., Gemming, T., Markova-Velichkova, M., Nihtianova, D., Arndt, K.-F.. Synthesis and characterization of magnetic nano-sized Fe3O4 and CoFe2O4. Bulgarian Chemical Communications, 44, SPECIAL ISSUE, 2012, ISSN:0861-9808, 90-97. ISI IF:0.234
Цитира се в:
1861. Dutra, Gabriel VS, et al. "Obtaining superhydrophopic magnetic nanoparticles applicable in the removal of oils on aqueous surface." Materials Chemistry and Physics 200 (2017): 204-216., 2017 Линк
1862. Costa, B. F. O., et al. "Mechanosynthesis of bcc alloys from Fe50− y/2Co50− y/2Sny mixtures (2≤ y≤ 33) and B2 ordering by annealing at modest temperatures." Hyperfine Interactions 238.1 (2017): 76., 2017 Линк
page 178/232
551. Uzunova E, Mikosch H. Electronic Structure and Reactivity of Cobalt Oxide Dimers and Their Hexacarbonyl Complexes: A Density Functional Study. J. Phys. Chem. A, 116, ACS, 2012, 3295-3301. ISI IF:2.69
Цитира се в:
1863. Ala' Omar Hasan Zayed, Mohammad Noh Daud, Sharifuddin Md ZainGlobal structural optimization and growth mechanism of cobalt oxide nanoclusters by genetic algorithm with spin-polarized DFT Journal of Alloys and Compounds 2017 695, 2513-2518, 2017
2013
552. Taki, Y., Shinozaki, K., Honma, T., Komatsu, T., Aleksandrov, L., Iordanova, R.. Coexistence of nano-scale phase separation and micro-scale surface crystallization in Gd2O3–WO3–B2O3 glasses. Journal of Non-Crystalline Solids, 381, 2013, 17-22. ISI IF:1.825
Цитира се в:
1864. Tillman I. J., Dettmann M.A., Herrig V., Thune Z.L., Zieser A.J., Michalek S.F., Been M.O., Martinez-Szewczyk, M.M., Koster, H.J., Wilkinson C.J., Kielty M.W., Jacobsohn L. G., Akgun U. High-density scintillating glasses for a proton imaging detector. Optical Materials. 68, Special Issue: SI (Conference: 6th International Workshop on Photoluminescence in Rare Earths (PRE) - Photonic Materials and Devices Location: Greenville, SC Date: JUN 08-10, 2016), 58-62, 2017, 2017 Линк
1865. Tillman, I. J., Dettmann, M. A., Herrig, V., Thune, Z. L., Zieser, A. J., Michalek, S. F., & Kielty, M. W. High-density scintillating glasses for a proton imaging detector. Optical Materials, 68, (2017), pp 58-62 = , 2017 Линк
553. Stoyanova A., Hitkova H., Bachvarova-Nedelcheva A., Iordanova R., Ivanova N., Sredkova M.. Synthesis and antibacterial activity of TiO2/ZnO nanocomposites prepared via nonhydrolytic route. J. Chem. Techn. Metall., 48, 2, 2013, ISSN:1314-7471 (print), 154-161. SJR:0.168
Цитира се в:
1866. Ruffolo Silvestro A., De Leo F., Ricca M., Arcudi A., Silvestri C., Bruno, Clara Urzì L., F. La Russa M., Medium-term in situ experiment by using organic biocides and titanium dioxide for the mitigation of microbial colonization on stone surfaces, International Biodeterioration & Biodegradation, 123 (2017) pp. 17-26., 2017 Линк
1867. Sobhani-Nasab, A., Zahraei, Z., Akbari, M., Maddahfar, M., Hosseinpour-Mashkani, S.M., Synthesis, characterization, and antibacterial activities of ZnLaFe2O4/NiTiO3 nanocomposite, Journal of Molecular Structure, 1139 (2017) pp. 430-435., 2017 Линк
1868. Vignesh K., Vijayalakshmi, K.A., Karthikeyan, N., Synthesis and surface properties studies on bamboo Charcoal/ZnO nanocomposite by using low-temperature plasma Surface Review and Letters, 24 (3) (2017) art. no. 1750032, 2017 Линк
1869. Sethi, D., Sakthivel, R., ZnO/TiO2 composites for photocatalytic inactivation of Escherichia coli, Journal of Photochemistry and Photobiology B: Biology, 168 (2017) pp. 117-123., 2017 Линк
1870. Siwińska-Stefańska, K., Kurc, B., A composite TiO2-SiO2-ZrO2 oxide system as a high-performance anode material for lithium-ion batteries, Journal of the Electrochemical Society, 164 (4) (2017) pp. A728-A734, 2017 Линк
1871. Nasir M., Irnameria D. and Zulfikar M. A., Synthesis and characterization of novel TiO2-ZnO-CoO nanocomposite photocatalyst for photodegradation of methylene blue dye, IOP Conf. Ser.: Earth Environ. Sci. 60 (2017) p. 012015., 2017 Линк
page 179/232
554. Grigorova E., Khristov M., Peshev P., Nihtianova D., Velichkova N., Atanasova G.. Hydrogen sorption properties of a MgH2 - V2O5 composite prepared by ball milling. Bulgarian Chemical Communications, 45, Journal of the Chemicals Institutes of the Bulgarian Academy of Sciences and of the Union of Chemists in Bulgaria, 2013, ISSN:08619808, 280-287. SJR:0.156, ISI IF:0.201
Цитира се в:
1872. Xu, Guang, et al. "Effect of BiVO4 additive on the hydrogen storage properties of MgH2".MATERIALS RESEARCH BULLETIN. Volume: 89 Pages: 197-203, 2017, 2017 Линк
1873. Zhang, Tengfei, et al. "Enhancement of hydrogen desorption kinetics in magnesium hydride by doping with lithium metatitanate".JOURNAL OF ALLOYS AND COMPOUNDS.Volume: 711 Pages: 400-40, 2017, 2017 Линк
555. Dikovska, A.Og., Alexandrov, M.T., Atanasova, G. B., Tsankov, N.T., Stefanov, P.K.. Silver nanoparticles produced by PLD in vacuum: role of the laser wavelength used,. Applied Physics A: Materials Science and Processing, 113, 1, Springer, 2013, ISSN:09478396, DOI:10.1007/s00339-013-7834-9, 83-88. SJR:0.54, ISI IF:1.444
Цитира се в:
1874. Raju, K., Yoon, D.-H., Alternating current electrophoretic deposition (AC-EPD) and infiltration of nanomaterials in an aqueous suspension ( Book Chapter), 2017, Electrophoretic Deposition (EPD): Advances in Applications and Research, pp. 1-38, 2017
1875. Myungjoon Kim, Saho Osone, Taesung Kim, Hidenori Higashi, Takafumi Seto, Synthesis of Nanoparticles by Laser Ablation: A Review, KONA Powder and Particle Journal, 34 (2017) Pages 80-90. Article ID: 2017009, 2017 DOI: 10.14356/kona.2017009, 2017
556. Koleva V., Stefov V.. Phosphate ion vibrations in dihydrogen phosphate salts of the type M(H2PO4)2•2H2O (M = Mg, Mn, Co, Ni, Zn, Cd): spectra-structure correlations. Vibrational Spectroscopy, 64, Elsevier, 2013, ISSN:0924-2031, 89-100. ISI IF:2.003
Цитира се в:
1876. Mohammad, F., Arfin, T., & Al-Lohedan, H. A. (2017). Sustained drug release and electrochemical performance of ethyl cellulose-magnesium hydrogen phosphate composite. Materials Science and Engineering: C, 71, pp. 735-743, 2017 Линк
557. Tsoncheva, T., Genova, I., Tsyntsarski, B., Dimitrov, M., Paneva, D., Zheleva, Z., Yordanova, I., Issa, G., Kovacheva, D., Budinova, T., Kolev, H., Ivanova, R., Mitov, I., Petrov, N.. Transition metal modified activated carbons from biomass and coal treatment products as catalysts for methanol decomposition. Reaction Kinetics, Mechanisms and Catalysis, 110, 2, 2013, ISSN:18785190, DOI:10.1007/s11144-013-0612-z, 281-294. ISI IF:1.17
Цитира се в:
1877. Thue, Pascal S., et al. "Effects of first-row transition metals and impregnation ratios on the physicochemical properties of microwave-assisted activated carbons from wood biomass." Journal of colloid and interface science 486 (2017): 163-175., 2017 Линк
558. M. G. Shipochka, I. D. Stambolova, V. N. Blaskov, P. K. Stefanov. XPS investigation on the surface of ZnO photocatalytic films obtained by polymer modified spray pyrolysis. Bulgarian Chemical Communications, 45, Special Issue B, 2013, ISSN:0861-9808, 105-109. SJR:0.14, ISI IF:0.32
Цитира се в:
1878. Fernández-Pérez, Amparo, et al. "Room temperature sintering of polar ZnO nanosheets: II-Mechanism." Physical Chemistry Chemical Physics (2017) 19, 16413-16425 ., 2017 Линк
1879. Kaushik, Vipin K., et al. "Electrical and optical characteristics of aerosol assisted CVD
page 180/232
grown ZnO based thin film diode and transistor." Journal of Alloys and Compounds 696 (2017): 727-735., 2017
1880. Gautam, Dhan Prasad, Rahman S, Fortuna AM, Borhan M.S., Saini-Eidukat B., Bezbaruah AN AN, "Characterization of zinc oxide nanoparticle (nZnO) alginate beads in reducing gaseous emission from swine manure." Environmental technology Vol 38 (2017) 1061-1074., 2017 Линк
559. Iordanova R., Bachvarova-Nedelcheva A., Gegova R., Dimitriev Y.. Synthesis and characterization of TeO2/TiO2 powders obtained through Te (VI) precursor. Bulg. Chem. Commun., 45, 4, 2013, ISSN:0324-1130, 485-490. SJR:0.175, ISI IF:0.31
Цитира се в:
1881. Kushwaha H., Thomas P., Vaish R., Visible light driven multifunctional photocatalysis in TeO2-based semiconductor glass ceramics, J. Photon. Energy 7(1), 016502 (2017)., 2017 Линк
1882. Bashi M., Rahnamaye Aliabad H.A., Mowlavi A.A., Ahmad I., Te 125 NMR shielding and optoelectronic spectra in XTe3O8 (X = Ti, Zr, Sn and Hf) compounds: Ab initio calculations, Journal of Molecular Structure volume 1148, issue , year 2017, pp. 223 – 230., 2017 Линк
560. Chakarova, K., Hadjiivanov, K.. FTIR study of N2 and CO adsorption on H-D-FER. Microporous and Mesoporous Materials, 177, 2013, 59-65. ISI IF:3.209
Цитира се в:
1883. G. Busca, "Acidity and basicity of zeolites: A fundamental approach", Microporous and Mesoporous Materials, 254 (2017) 3-16., 2017 Линк
561. Akika, F.-Z., Kihal, N., Habila, T., Avramova, I., Suzer, S., Pirotte, B., Khelili, S.. Synthesis and characterization of Zn(1-x)NixAl 2O4 spinels as a new heterogeneous catalyst of biginelli's reaction. Bulletin of the Korean Chemical Society, 5, 2013, ISSN:0253-2964, 1445-1453. ISI IF:0.797
Цитира се в:
1884. Dekamin, M.G., Mehdipoor, F., Yaghoubi, A. 1, 3, 5-Tris(2-hydroxyethyl)isocyanurate functionalized graphene oxide: A novel and efficient nanocatalyst for the one-pot synthesis of 3, 4-dihydropyrimidin-2(1: H)-ones (2017) New Journal of Chemistry, 41 (14), pp. 6893-6901., 2017 Линк
562. Tsoncheva, T., Issa, G., Blasco, T., Concepcion, P., Dimitrov, M., Hernández, S., Kovacheva, D., Atanasova, G., Lopez Nieto, J.M.. Silica supported copper and cerium oxide catalysts for ethyl acetate oxidation. Journal of Colloid and Interface Science, 404, 2013, ISSN:00219797, DOI:10.1016/j.jcis.2013.05.005, 155-160. ISI IF:3.368
Цитира се в:
1885. Chidchon Sararuk, Dan Yang, Guoliang Zhang, Chunshan Li, Suojiang Zhang, One-step aldol condensation of ethyl acetate with formaldehyde over Ce and P modified cesium supported alumina catalyst, Journal of Industrial and Engineering Chemistry, 46, (2017), pp 342-349., 2017 Линк
563. Stoyanova, D, Georgieva, P, Kasabova, N. Pd-containing catalysts promoted by NiO designed for reduction of NO with CO at stoihiometric NO/CO ratio. Reac.Kinet.Mech. Cat, 108, 2, 2013, ISSN:1878-5204, 391-402. ISI IF:0.983
Цитира се в:
1886. A. Tarjomannejad, A.Niaei, M.J.I. Gomez, A.Farzi, D. Salari, V. Albaladejo“NO+CO reaction over LaCu0.7B0.3O3(B = Mn, Fe, Co) and La0.8A0.2Cu0.7Mn0.3 O3 (A = Rb, Sr, Cr, Ba)
page 181/232
perovskite-type catalysis”Journal of Thermal Analysis and Calorimetry, Vol. 129, Issue 2, pp 671-680, 2017, 2017 Линк
564. Kostov, K.L., Polzin, S., Saha, S.K., Brovko, O., Stepanyuk, V., Widdra, W.. Surface-phonon dispersion of a NiO (100) thin film. Physical Review B, 87, 23, American Physical Society, 2013, DOI:10.1103/PhysRevB.87.235416, 235416-1-235416-8. ISI IF:3.718
Цитира се в:
1887. Saha, S.K., Liu, Z. and Dutta, G., 2017. Impact of Coulomb Correlations on Magnetic Anisotropy in Mn 3 Ga Ferrimagnet. Scientific reports, 7(1), p.13221, 2017, 2017
565. Velikova, N., Vueva, Y., Ivanova, Y., Salvado, I., Fernandes, M., Vassileva, P., Georgieva, R., Detcheva, A.. Silica-based organic-inorganic hybrid materials as potential adsorbents for Hg(II) ions. Journal of Chemical Technology and Metallurgy, 48, 6, 2013, ISSN:ISSN: 13117629, 577-584. SJR:0.16
Цитира се в:
1888. Khan, T. et al. Development of amidoxime functionalized silica by radiation-induced grafting, Journal of Applied Polymer Science, 134, (42), 2017, 45437, 2017, 2017
566. Avramova, I., Suzer, S., Guergova, D., Stoychev, D., Stefanov, P.. CeOx/Al2O3 thin films on stainless steel substrate - Dynamical X-ray photoelectron spectroscopy investigations. Thin Solid Films, 536, 1, 2013, ISSN:0040-6090, 63-67. SJR:0.693, ISI IF:1.799
Цитира се в:
1889. Kozhukharov, S.V., Samichkov, V.I., Girginov, C.A., Machkova, M.S.Actual trends in the elaboration of advanced multifunctional coating systems for the efficient protection of lightweight aircraft alloys (2017) Corrosion Reviews, 35 (6), pp. 383-396., 2017 Линк
567. Drenchev, N., Spassova, I., Ivanova, E., Khristova, M., Hadjiivanov, K.. Cooperative Effect of Ce and Mn in MnCe/Al2O3 Environmental Catalysts. Appl. Catal., B, 138-139, 2013, DOI:10.1016/j.apcatb.2013.03.012, 362-372. ISI IF:7.435
Цитира се в:
1890. M. Sheykhan, A. Yahyazadeh and L. Ramezani, A novel cooperative Lewis acid/Brønsted base catalyst Fe3O4SiO2-APTMS-Fe(OH)2: An efficient catalyst for the Biginelli reaction, Mol. Catal., 435, (2017), pp. 166-173 [ISI]., 2017 Линк
1891. F. Arena, R. Di Chio, L. Filiciotto, G. Trunfio, B. Fazio, A. Palella, A. Patti and L. Spadaro, Probing the functionality of nanostructured MnCeOx catalysts in the carbon monoxide oxidation: Part II. Reaction mechanism and kinetic modelling., Appl. Catal. B, 218 (5), (2017), pp. 803-809 [ISI], 2017 Линк
1892. M. Saeidi and M. Hamidzadeh, Co-doping a metal (Cr, Mn, Fe, Co, Ni, Cu, and Zn) on Mn/ZSM-5 catalyst and its effect on the catalytic reduction of nitrogen oxides with ammonia, Res. Chem. Intermed., 43 (4), (2017), pp. 2143-2157 [ISI]., 2017 Линк
568. Milenova, K., Stambolova I., Blaskov, V., Eliyas A., Vassilev S., Shipochka M.. The effect of introducing copper dopant on the photocatalytic activity of zno nanoparticles (3) 259-. Journal of the University of Chemical Technology and Metallurgy, 48, 3, 2013, 259
Цитира се в:
1893. Boukaous, Chahra, et al. "Effect of copper doping sol-gel ZnO thin films: physical properties and sensitivity to ethanol vapor." Materials Research Express 4.10 (2017): 105024., 2017
1894. Ismail, A., et al. "Radioluminescence in ZnO: effect of chemical modification." JOURNAL OF
page 182/232
OPTOELECTRONICS AND ADVANCED MATERIALS 19.5-6 (2017): 389-394., 2017
1895. Slimi, Ouidette, et al. "Structural and optical properties of Cu doped ZnO aerogels synthesized in supercritical ethanol." Journal of Porous Materials (2017): 1-7., 2017
1896. Kee, Ming Wei. Enhanced Photodegradation of Dye Mixtures (Methyl Orange and Methyl Green) and Real Textile Wastewater by ZnO Micro/Nanoflowers. Diss. UTAR, 2017., 2017
1897. Kumaran, Nimisha N., and K. Muraleedharan. "Photocatalytic activity of ZnO and Sr 2+ doped ZnO nanoparticles." Journal of Water Process Engineering 17 (2017): 264-270., 2017
1898. Raju, KV Surya Narayana, et al. "HIGH-TEMPERATURE PHASE TRANSFORMATIONS AND DYNAMICS OF ZnO NANOPARTICLES INCORPORATED 4-CYANO-4'-PENTYLBIPHENYL MESOGEN." displays 10.1 (2017): 37-45., 2017 Линк
569. Markova-Velichkova, M., Lazarova, T., Tumbalev, V., Ivanov, G., Kovacheva, D., Stefanov, P., Naydenov, A.. Complete oxidation of hydrocarbons on YFeO3 and LaFeO3 catalysts. Chemical Engineering Journal, 231, Elsevier, 2013, DOI:10.1016/j.cej.2013.07.029, 236-244. SJR:1.585, ISI IF:4.321
Цитира се в:
1899. Bachina, A., V. A. Ivanov, and V. I. Popkov. "Peculiarities of LaFeO3 nanocrystals formation via glycine-nitrate combustion." Наносистемы: физика, химия, математика 8.5 (2017) 647-653., 2017 Линк
1900. Pan K. Felicity of Double perovskite-type catalyst combined with non-thermal plasma to remove volatile organic compounds. 2017. PhD Thesis. National Central University., 2017
1901. Galal, Ahmed, et al. "Enhancing the specific capacitance of SrRuO 3 and reduced graphene oxide in NaNO 3, H 3 PO 4 and KOH electrolytes." Electrochimica Acta (2017) 738-747., 2017 Линк
1902. Santana, J.A., Krogel, J.T., Kent, P.R.C., Reboredo, F.A. Diffusion quantum Monte Carlo calculations of SrFeO3 and LaFeO3 (2017) Journal of Chemical Physics, 147 (3), art. no. 034701, 2017 Линк
1903. Han, Tong, et al. "Rh-Fe alloy derived from YRh 0.5 Fe 0.5 O 3/ZrO 2 for higher alcohols synthesis from syngas." Catalysis Today 298, pp. 69-76. 2017, 2017 Линк
1904. Sánchez-Rodríguez, Daniel, et al. "Synthesis of LaFeO 3 perovskite-type oxide via solid-state combustion of a cyano complex precursor: The effect of oxygen diffusion." Ceramics International 43.3 (2017): 3156-3165., 2017 Линк
1905. Xu, Ke, et al. "Photocatalytic hydrogen evolution performance of NiS cocatalyst modified LaFeO 3/gC 3 N 4 heterojunctions." New Journal of Chemistry, 41 (23), pp. 14602-14609., 2017 Линк
1906. Xu, Ke, and Jian Feng. "Superior photocatalytic performance of LaFeO 3/gC 3 N 4 heterojunction nanocomposites under visible light irradiation." RSC Advances, 7 (72), (2017): 45369-45376., 2017 Линк
1907. Galal, Ahmed, et al. "An Efficient and Durable Electrocatalyst for Hydrogen Production Based on Earth‐Abundant Oxide‐Graphene Composite." ChemistrySelect 2 (31) (2017): 10261-10270., 2017 Линк
1908. Swatsitang, Ekaphan, et al. "Investigation of structural, morphological, optical, and magnetic properties of Sm-doped LaFeO3 nanopowders prepared by sol–gel method." Journal of Sol-Gel Science and Technology, 81 (2), pp. 483-492., 2017 Линк
1909. BURKOVIČOVÁ, ANETA, et al., ." Preparation and evaluation of the color properties of YFeO3 pigments doped by In3+ and Ga3+ (2017) Ceramics - Silikaty, 61 (1), pp. 34-39. ., 2017 Линк
page 183/232
1910. Removal of VOCs via combining double perovskite-type catalysts and nonthermal plasma. 2017. PhD Thesis. National Central University., 2017 Линк
570. Kaneva, N., Stambolova I., Blaskov, V., Eliyas, A., Vassilev., S.. Microwave-assisted and conventional sol-gel preparation of photocatalytically active ZnO/TiO2/glass multilayers. Central European Journal of Chemistry, 7, 2013, 105, SJR:0.346, ISI IF:1.329
Цитира се в:
1911. Mahltig, B., Miao, H. "Microwave-assisted preparation of photoactive TiO2 on textile substrates" 2017 Journal of Coatings Technology and Research 14(3), pp. 721-733, 2017
1912. M.P. Blanco-Vega, J.L.Guzmán-Mar, M. Villanueva-Rodríguez, L.Maya-Treviño, L.L. Garza-Tovar , A. Hernández-Ramírez, L. Hinojosa-Reyes, Photocatalytic elimination of bisphenol A under visible light using Ni-doped TiO2 synthesized by microwave assisted sol-gel method 2017 Materials Science in Semiconductor Processing 71, pp. 275-282, 2017
571. Tsoncheva, T., Issa, G., Lopez Nieto, J.M., Blasco, T., Concepcion, P., Dimitrov, M., Atanasova, G., Kovacheva, D.. Pore topology control of supported on mesoporous silicas copper and cerium oxide catalysts for ethyl acetate oxidation. Microporous and Mesoporous Materials, 180, 2013, ISSN:13871811, DOI:10.1016/j.micromeso.2013.06.017, 156-161. ISI IF:3.453
Цитира се в:
1913. Shen, Weiwei, et al. "CO oxidation on mesoporous SBA-15 supported CuO–CeO 2 catalyst prepared by a surfactant-assisted impregnation method." RSC Advances 7.44 (2017): 27689-27698., 2017 Линк
1914. Li, Baitao, et al. "One-pot synthesis of ordered mesoporous Cu-KIT-6 and its improved catalytic behavior for the epoxidation of styrene: Effects of the pH value of the initial gel." Chinese Journal of Catalysis 38.3 (2017): 518-528., 2017 Линк
1915. Sun Lina, et al. "Progress in the Research of Common Metal Oxide Flue Gas Desulfurization." Progress in Chemistry 36.01 (2017): 181-188., 2017 Линк
1916. Chi-Woong Ahn, Young-Woo You, Iljeong Heo, Ji Sook Hong, Jong-Ki Jeon, Young-Deok Ko, YoHan Kim, Hosik Park, Jeong-Kwon Suh, Catalytic Combustion of Volatile Organic Compound over Spherical-shaped Copper-Manganese Oxide, Journal of Industrial and Engineering Chemistry, 47, (2017) pp. 439-445., 2017
1917. Ahn, C.-W., You, Y.-W., Heo, I., Hong, J.S., Jeon, J.-K., Ko, Y.-D., Kim, Y., Park, H., Suh, J.-K. Catalytic combustion of volatile organic compound over spherical-shaped copper–manganese oxide (2017) Journal of Industrial and Engineering Chemistry, 47, pp. 439-445., 2017 Линк
572. Gancheva, M., Iordanova, R., Dimitriev, Y., Nihtianova, D., Stefanov, P., Naydenov, A.. Mechanochemical synthesis, characterization and catalytic activity of Bi2WO6 nanoparticles in CO, n-hexane and methane oxidation reactions. Journal of Alloys and Compounds, 570, Elsevier, 2013, ISSN:0925-8388, 34-40. ISI IF:2.99
Цитира се в:
1918. Zhang, Jinniu, et al. "Hierarchical Bi 2 WO 6 architectures decorated with Pd nanoparticles for enhanced visible-light-driven photocatalytic activities." Applied Surface Science 404 (2017): 282-290., 2017
573. Velikova, N., Vueva, Y., Ivanova, Y., Salvado, I., Fernandes, M., Vassileva, P., Georgieva, R., Detcheva, A.. Synthesis and characterization of sol–gel mesoporous organosilicas functionalized with amine groups. Journal of Non-Crystalline Solids, 378, Elsevier, 2013, ISSN:ISSN: 0022-3093, DOI:DOI:10.1016/j.jnoncrysol.2013.06.024, 89-95. ISI IF:1.716
page 184/232
Цитира се в:
1919. An, F.-Q., Xue, X.-Y., Li, M., Hu, T.-P., Gao, J.-F., Surface functionalization of D301 resin with urea: Synthesis, characterization, and application for effective removal of toxic heavy metal ions, (2017) Desalination and Water Treatment, 90, pp. 241-251, 2017
1920. Juliana F. De Conto, et al. " Synthesis of silica modified with 1-methylimidazolium chloride by sol-gel method: A comparison between microwave radiation-assisted and conventional methods", Journal of Non-Crystalline Solids, 471(1), pp.209-214, 2017, 2017
574. Uzunova E, Mikosch H. Adsorption and Activation of Ethene in Transition Metal Exchanged Zeolite Clinoptilolite: a Density Functional Study. ACS Catal, 3, ACS, 2013, ISSN:2155-5435, DOI:http://dx.doi.org/10.1021/cs4005997, 2759-2766. ISI IF:9.3
Цитира се в:
1921. Nazmul Abedin Khan, Sung Hwa Jhung Adsorptive removal and separation of chemicals with metal-organic frameworks: Contribution of p-complexation Journal of Hazardous Materials 2017 325, 198, 2017
575. Vassileva, P., Apostolova, M., Detcheva, A., Ivanova, E.. Bulgarian Natural Diatomites: Modification and Characterization. Chemical Papers, 67, 3, 2013, DOI:DOI: 10.2478/s11696-012-0272-x, 342-349. ISI IF:1.193
Цитира се в:
1922. Skvortsov, A. A., Luk'yanov, M. N., & Novitsan, Y. V. (2017). Sintering and Mechanical Properties of High-Porosity Ceramics Based on Diatomite., Solid State Phenomena 269, pp. 71-77., 2017
576. Georgieva, R., Detcheva, A., Karadjov, M., Jordanov, J., Ivanova, E.. Total reflection X-ray fluorescence analysis of trace elements in Bulgarian bottled mineral waters of low and high mineral content. International Journal of Environmental Analytical Chemistry, 93, 10, Taylor and Francis, 2013, ISSN:ISSN: 0306-7319, DOI:DOI: 10.1080/03067319.2013.775277, 1043-1051. ISI IF:1.24
Цитира се в:
1923. Y. Bazel, et al. " A green cloud-point microextraction method for spectrophotometric determination of Ni(II) ions with 1-[(5-benzyl-1, 3-thiazol-2-yl)diazenyl]naphthalene-2-ol", Journal of Molecular Liquids, 242, 471-477, 2017., 2017
577. Amalraj, S.F., Sharon, D., Talianker, M., Julien, C.M., Burlaka, L., Lavi, R., Zhecheva, E., Markovsky, B., Zinigrad, E., Kovacheva, D., Stoyanova, R., Aurbach, D.. Study of the nanosized Li2MnO3: Electrochemical behavior, structure, magnetic properties, and vibrational modes. Electrochimica Acta, 97, 2013, ISSN:0013-4686, DOI:10.1016/j.electacta.2013.03.029, 259-270. ISI IF:4.504
Цитира се в:
1924. Zhao, W., Xiong, L., Xu, Y., Li, H., & Ren, Z. (2017). High performance Li 2 MnO 3/rGO composite cathode for lithium ion batteries. Journal of Power Sources, 349, 11-17., 2017 Линк
1925. Vu, N. H., Arunkumar, P., Im, J. C., Ngo, D. T., Le, H. T., Park, C. J., & Im, W. B. (2017). Effect of synthesis temperature on the structural defects of integrated spinel-layered Li 1.2 Mn 0.75 Ni 0.25 O 2+ δ: a strategy to develop high-capacity cathode materials for Li-ion batteries. Journal of Materials Chemistry A, 5(30), 15730-15742., 2017 Линк
1926. Yang, G., Wang, L., Wang, J., & Yan, W. (2017). Fabrication and formation mechanism of Li 2 MnO 3 ultrathin porous nanobelts by electrospinning. Ceramics International, 43(1), 71-76., 2017 Линк
1927. Schipper, F., Nayak, P.K., Erickson, E.M., Amalraj, S.F., Srur-Lavi, O., Penki, T.R., Talianker,
page 185/232
M., Grinblat, J., Sclar, H., Breuer, O., Julien, C.M., Munichandraiah, N., Kovacheva, D., Dixit, M., Major, D.T., Markovsky, B., Aurbach, D. "Study of cathode materials for lithium-ion batteries: Recent progress and new challenges". Inorganics, 5 (2), art. no. 32, 2017, 2017 Линк
1928. Freire, M., et al. "Nanostructured Li 2 MnO 3: a disordered rock salt type structure for high energy density Li ion batteries." Journal of Materials Chemistry A 5.41 (2017): 21898-21902., 2017 Линк
1929. Duraisamy, Shanmughasundaram, et al. "Porous, hollow Li1. 2Mn0. 53Ni0. 13Co0. 13O2 microspheres as a positive electrode material for Li-ion batteries." Journal of Solid State Electrochemistry 21.2 (2017): 437-445., 2017 Линк
1930. Li, Shiyou, and Dan Lei. "Synthesis and electrochemical characterization of nanosized Li2MnO3 cathode material for lithium ion batteries." AIP Conference Proceedings 1890, 040037 (2017); https://doi.org/10.1063/1.5005239, 2017 Линк
1931. GUO Shuangtao, ZHAO Shixi, DENG Yufeng XIONG Kai, XU Yahui, NAN Cewen, et al. "Progress on Mechanism and Impacting Factor of Electrochemical Activation for Li2MnO3, 45.4 (2017): 495-503., 2017 Линк
1932. Бузанов, Григорий Алексеевич, et al. "ФАЗОВЫЕ РАВНОВЕСИЯ С УЧАСТИЕМ ТВЕРДЫХ РАСТВОРОВ В СИСТЕМЕ Li-Mn-O." Журнал неорганической химии 62.5 (2017): 551-558., 2017 Линк
1933. Torres-Castro, L., Abreu-Sepulveda, M. A., Katiyar, R. S., & Manivannan, A. (2017). Electrochemical Investigations on the Effect of Mg-Substitution in Li2MnO3 Cathode. Journal of The Electrochemical Society, 164(7), A1464-A1473., 2017 Линк
1934. Zhang, X., Porras-Gutierrez, A. G., Mauger, A., Groult, H., & Julien, C. M. (2017). Nanotechnology of Positive Electrodes for Li-Ion Batteries. Inorganics, 5(2), 25., 2017 Линк
578. Nikolova, Kr., Gentscheva, G., Panchev, I., Ivanova, E.. Survey of the mineral content and some physico-chemical parameters of Bulgarian bee honeys. Bulgarian Chemical Communications, 45, 2, 2013, 244-249. ISI IF:0.32
Цитира се в:
1935. Bontempo, L., Camin, F., Ziller, L., Perini, M., Nicolini, G., Larcher, R. Isotopic and elemental composition of selected types of Italian honey (2017) Measurement: Journal of the International Measurement Confederation, 98, 283-289., 2017 Линк
1936. Pohl P., A. Bielawska-Pohl, A. Dzimitrowicz, P. Jamroz, M. Welna, A. Lesniewicz, A. Szymczycha-Madeja (2017) "Recent achievements in element analysis of bee honeys by atomic and mass spectrometry methods", Trends in Analytical Chemistry, 93, 67–77, 2017 Линк
579. Copcia V. E., Hristodor C. M., Dunca S., Iordanova R., Bachvarova-Nedelcheva A., Forna N., Sandu I.. Synthesis and Antibacterial Properties of ZnO/Clinoptilolite and TiO2/ZnTiO3/Clinoptilolite Powders. Revista de Chimie - Bucharest, 64, 9, 2013, ISSN:0034-7752, 978-981. SJR:0.276, ISI IF:0.81
Цитира се в:
1937. Perween S., Ranjan A., Improved visible-light photocatalytic activity in ZnTiO3 nanopowder prepared by sol-electrospinning, Solar Energy Materials and Solar Cells, 163 (2017) pp. 148–156, 2017 Линк
1938. Sobhani-Nasab A., Zahraei Z., Akbari M. , Maddahfar M., Mostafa Hosseinpour-Mashkani S., Synthesis, characterization, and antibacterial activities of ZnLaFe2O4/NiTiO3 nanocomposite, Journal of Molecular Structure, 1139 (2017) pp 430–435, 2017 Линк
1939. Dediu V., Musat V., Jurca B., Ionut Cristea N., Thermal Decomposition of Some Sol-Gel
page 186/232
Precursors for Mesoporous TiO2-Based Thin Films for Chemorezistive Environmental Sensors, REV.CHIM.(Bucharest), 68 (8) (2017) pp. 1703-1707., 2017 Линк
1940. Zegan G., Anistoroaei D., Golovcencu L., Radu Cernei E., Gena Dascalu C., Mihaela Carausu E., Physicochemical Properties of Advanced Nanostructured Materials for Dental Microimplant Coatings, Rev.Chim., 68 (9) (2017) 2052 – 2054., 2017 Линк
1941. Plaiaşu A. G. and Monica Iordache D., Morphological characterization of oxide nanopowders, Rev. Roum. Chim., 62(10) (2017) pp. 749-754., 2017 Линк
580. Angelova, R., Slavov, L., Iliev, M., Blagoev, B., Kovacheva, D., Abrashev, M., Nedkov, I, Groudeva, V.. Biogenic iron oxides produced by neutrophilic iron-oxidizing bacteria under laboratory conditions. Current Opinion in Biotechnology, 24, 2013, ISSN:0958-1669, DOI:10.1016/j.copbio.2013.05.334, S108-S109. ISI IF:9.294
Цитира се в:
1942. Shopska, M., et al. "Composition and catalytic behavior in CO oxidation of biogenic iron-containing materials." Reaction Kinetics, Mechanisms and Catalysis 118.1 (2016): 179-198., 2017 Линк
581. Ivanov, B., Khristova, M., Spassova, I.. Rare earth metal modified alumina-supported copper cobaltite catalysts in reduction of NO with CO. Bulgarian Chemical Communication, 45, Special Issue B, 2013, 198-202. SJR:0.156, ISI IF:0.349
Цитира се в:
1943. D. Stoyanova, S. Petrovic, P. Georgieva, A. Terlecki-Baricevic, D. Mehandjiev, (2017) Journal of Chemical Technology and Metallurgy, 52, 1, 75-80., 2017
1944. Meenakshi, P., Sitharaman, U., & Rajamani, N. (2017). Facile synthesis and characterization of acetate intercalated Co-La layered double hydroxide. Journal of Rare Earths, 35(5), 474-479., 2017
1945. Liu, K., Yu, Q., Liu, J., Wang, K., Han, Z., Xuan, Y., & Qin, Q. (2017). Selection of catalytically active elements for removing NO and CO from flue gas at low temperatures. New Journal of Chemistry, 41(22), 13993-13999., 2017 Линк
582. Tsoncheva, T., Issa, G., Blasco, T., Dimitrov, M., Popova, M., Hernández, S., Kovacheva, D., Atanasova, G., Nieto, J.M.L.. Catalytic VOCs elimination over copper and cerium oxide modified mesoporous SBA-15 silica. Applied Catalysis A: General, 453, 2013, ISSN:0926860X, DOI:10.1016/j.apcata.2012.12.007, 1-12. ISI IF:3.942
Цитира се в:
1946. Shen, Weiwei, et al. "CO oxidation on mesoporous SBA-15 supported CuO–CeO 2 catalyst prepared by a surfactant-assisted impregnation method." RSC Advances 7.44 (2017): 27689-27698., 2017 Линк
1947. Mengfan Gao, Qingliang Ma, Qingwen Lin, Jiali Chang, Hongzhu Ma, Fabrication and adsorption properties of hybrid fly ash composites, Applied Surface Science, 396, (2017) pp. 400-411., 2017 Линк
1948. T. Tabakova, E. Kolentsova, D. Dimitrov, K. Ivanov, M. Manzoli, A. M. Venezia, Y. Karakirova, P. Petrova, D. Nihtianova, G. Avdeev, CO and VOCs Catalytic Oxidation Over Alumina Supported Cu–Mn Catalysts: Effect of Au or Ag Deposition, Topics in Catalysis · 60 (1–2) (2017), pp 110–122., 2017 Линк
1949. Wang, Tao, Huiping Zhang, and Ying Yan. "High efficiency of isopropanol combustion over cobalt oxides modified ZSM-5 zeolite membrane catalysts on paper-like stainless steel fibers." Journal of Solid State Chemistry 251 (2017): 55-60., 2017 Линк
1950. Fan, Jianwei, et al. "Adsorptive performance of chromium-containing ordered
page 187/232
mesoporous silica on volatile organic compounds (VOCs)." Natural Gas Industry B vol. 4 issue5 (2017) 382-389., 2017 Линк
1951. Dan, H. E., et al. "Catalytic combustion of volatile organic compounds over CuO-CeO 2 supported on SiO 2-Al 2 O 3 modified glass-fiber honeycomb." Journal of Fuel Chemistry and Technology 45.3 (2017): 354-361., 2017 Линк
1952. Gao, Mengfan, et al. "Fabrication and adsorption properties of hybrid fly ash composites." Applied Surface Science 396 (2017): 400-411., 2017 Линк
1953. Sheng, Jingjing, et al. "Efficient removal of HCHO from simulated coal combustion flue gas using CuO-CeO 2 supported on cylindrical activated coke." Fuel 197 (2017): 397-406., 2017 Линк
1954. Tabakova, T., et al. "CO and VOCs Catalytic Oxidation Over Alumina Supported Cu–Mn Catalysts: Effect of Au or Ag Deposition." Topics in Catalysis 60.1-2 (2017): 110-122., 2017 Линк
1955. Solsona, Benjamin, et al. "Total Oxidation of Propane Using CeO2 and CuO-CeO2 Catalysts Prepared Using Templates of Different Nature." Catalysts 7(4) (2017): 96., 2017 Линк
1956. Li, Luming, et al. "Self-propagated flaming synthesis of highly active layered CuO-δ-MnO2 hybrid composites for catalytic total oxidation of toluene pollutant." ACS Applied Materials & Interfaces 9 (26) (2017) pp 21798–21808., 2017 Линк
1957. Liao, Yinnian, et al. "Catalytic properties of manganese oxide polyhedra with hollow and solid morphologies in toluene removal." Applied Surface Science 405 (2017): 20-28., 2017 Линк
1958. Zhou, Changyan, et al. "Catalytic combustion of acetone over Cu/LTA zeolite membrane coated on stainless steel fibers by chemical vapor deposition." Microporous and Mesoporous Materials 248 (2017): 139-148., 2017 Линк
1959. Luo, Zhimin, et al. "Preparation and characterization of mesostructured cellular foam silica supported Cu–Ce mixed oxide catalysts for CO oxidation." RSC Advances 7.16 (2017): 9732-9743., 2017 Линк
1960. Seo, Hyun Ook, et al. "Enhanced photo-catalytic activity of TiO 2 films by removal of surface carbon impurities; the role of water vapor." Applied Surface Science, Volume 420 (2017) 808-816., 2017 Линк
1961. Chen, Xiao, et al. "Facile and Flexible Preparation of Highly Active CuCe Monolithic Catalysts for VOCs Combustion." ChemistrySelect 2.28 (2017): 9069-9073., 2017 Линк
1962. Li, Jingrong, et al. "Study of CeO2 Modified AlNi Mixed Pillared Clays Supported Palladium Catalysts for Benzene Adsorption/Desorption-Catalytic Combustion." Materials 10(8) (2017): 949., 2017 Линк
583. Chakarova, K., Nikolov, P., Hadjiivanov, K.. Different Brønsted acidity of H-ZSM-5 and D-ZSM-5 zeolites revealed by the FTIR spectra of adsorbed CD3CN. Catalysis Communications, 41, 2013, DOI:10.1016/j.catcom.2013.06.033, 38-40. ISI IF:3.32
Цитира се в:
1963. D.E.G. Caraguay, “Evaluation of Phosphate and Ammonium Removal and Valorization from Urban Waste Waters by Impregnated Metal Hydrated Oxides Inorganic Natural Zeolites”, Ph. D. Thesis, Universitat Politècnica de Catalunya, Barcelona, Spain, USA, 2017., 2017 Линк
1964. Y. Zhou, Y.-Z. Zheng, T. Zhang, G. Deng, Z.-W. Yu, "Evidence that Acetonitrile is Sensitive to Different Interaction Sites of Ionic Liquids as Revealed by Excess Spectroscopy", ChemPhysChem, 18 (2017) 1370-1375., 2017 Линк
584. Vassileva P., Detcheva A., Uzunov I., Uzunova S.. Removal of Some Metal Ions from Aqueous Solutions
page 188/232
Using Pyrolysed Rice Husks: Adsorption Kinetics and Equilibria. Chemical Engineering Communications, 200, 12, 2013, ISSN:0098-6445, 1578-1599. SJR:0.37, ISI IF:1.282
Цитира се в:
1965. M. O. Ilomuanyaa, B. Nashirub, N. D. Ifudua, C. I. Igwiloa, Effect of pore size and morphology of activated charcoal prepared from midribs of Elaeis guineensis on adsorption of poisons using metronidazole and Escherichia coli O157:H7 as a case study, Journal of Microscopy and Ultrastructure, 5 (1) (2017) 32-38, 2017
1966. Maleki, Shahrzad; Karimi-Jashni, Ayoub, Effect of ball milling process on the structure of local clay and its adsorption performance for Ni(II) removal, Applied Clay Science , 137 (2017) 213-224, 2017
1967. Q. Ma, Y. Yu, M. Sindoro, A. G. Fane, R. Wang, H. Zhang, Carbon-Based Functional Materials Derived from Waste for Water Remediation and Energy Storage, Adv.Materials, 29, 13 (2017), 2017 Линк
1968. Uddin, M. K., & Rahaman, P. F. A study on the potential applications of rice husk derivatives as useful adsorptive material. (2017) In book: Inorganic Pollutants in Wastewater, Publisher: Materials Research Foundations, Editors: Inamuddin, Ali Mohammad, Abdullah M Asiri, pp.38, 2017 Линк
1969. Z.Yusuf, B.Fadhel, A.Hammad, Process for preparing lipid coated particles of plant material, Pat. US 9592488 B2, 14.03.2017, 2017
1970. A.O. Ifelebueg, A. Johnson, Nonconventional low-cost cellulose- and keratin-based biopolymeric sorbents for oil/water separation and spill cleanup: A review, Critical Reviews in Environmental Science and Technology , (2017) 47, (11), pp. 964-1001, 2017 Линк
1971. J.Wang, A.Wang, W.Wang, Robustly superhydrophobic/superoleophilic kapok fiber with ZnO nanoneedles coating: Highly efficient separation of oil layer in water and capture of oil droplets in oil-in-water emulsions, Industrial Crops and Products, 108 (2017) 303-311, 2017
1972. Demirel B. G., Altın A., Production of sorbent from paper industry solid waste for oil spill cleanup, (2017) Marine Pollution Bulletin 125 (1-2) 341-349., 2017 Линк
1973. Sang Wook Han, Eun Ji Park, Myung-Geun Jeong, Il Hee Kim, Hyun Ook Seo, Ju Hwan Kim, Kwang-Dae Kim, Young Dok Kim, Fabrication of recyclable superhydrophobic cotton fabrics, Applied Surface Science, 400 (2017) 405-412, 2017
1974. Tiantian Yin, Xinying Zhang, Xiaoyan Liu, Wenbo Chai, Beibei Li, Chaoqun Wang, Spilled-Oil Sorbents Prepared by Recycling of Eutrophicated Aquatic Plants, Chem.Eng.Technol., 40 (2017) 170-176, 2017
585. Nickolov R., Spassova I., Velichkova N., Khristova M., Dimitrova V., Tzvetkova P.. Hybrid materials as catalyst support in NO reduction with CO. Microporous and Mesoporous Materials, 165, Elsevier, 2013, 193-199. ISI IF:3.453
Цитира се в:
1975. Ajenifuja, E., & Ajayi, J. A. E. PREPARATION AND CHARACTERIZATION OF PHOTOCATALYTICMODIFIED KAOLINITE CLAY CERAMIC MEMBRANE FILTER FOR REMEDIATION OF POLLUTED WATER., Trends in Science & Technology Journal, April, 2017: Vol. 2 No. 1A pp 151 – 157, 2017
586. Bachvarova-Nedelcheva A., Iordanova R., Stoyanova A., Gegova R., Dimitriev Y., Loukanov A.. Photocatalytic properties of ZnO/TiO2 powders obtained via combustion gel method. Centr. Eur. J. Chem., 11, 3, 2013, ISSN:2391-5420, 364-370. SJR:0.4, ISI IF:1.21
page 189/232
Цитира се в:
1976. Goutham S., Kaur S., Kumar K., Sadasivuni J., Kumar Bal, Jayarambabu Na. D., Santhosh Kumar, Venkateswara Rao, Nanostructured ZnO gas sensors obtained by green method and combustion technique, Materials Science in Semiconductor Processing, 57 (2017) pp. 110–115., 2017 Линк
1977. Ben Belgacem R., Chaari M., Brana A.F., Javier Garcia B., Matoussi A., Structural, electric modulus and complex impedance analysis of ZnO/TiO2 composite ceramics, J. Amer. Cer. Soc. 00 (2017) pp. 1–14., 2017 Линк
587. Ivanova, Sv., Zhecheva, E., Nihtianova, D, Mladenov, M., Stoyanova, R.. Electrochemical Intercalation of Li+ intо nanodomain Li4Mn5O12. Journal of Alloys and Compounds, 561, Elsevier BV, 2013, ISSN:0925-8388, DOI:10.1016/j.jallcom.2013.02.022, 252-261. SJR:1.091, ISI IF:3.031
Цитира се в:
1978. Herrera, F., Fuenzalida, F., Marquez, P., & Gautier, J. L. (2017). Improvement of the electrochemical performance of LiFePO 4 cathode by Y-doping. MRS Communications, 7(3), 515-522., 2017 Линк
588. Gegova R., Dimitriev Y., Bachvarova-Nedelcheva A., Iordanova R., Loukanov A., Iliev Tz.. Combustion gel method for synthesis of nanosized ZnO/TiO2 powders. Journal of Chemical Technology and Metallurgy, 48, 2, 2013, ISSN:1314-7471 (print), 147-153
Цитира се в:
1979. Goutham S., Kaur S. , Kumar Sadasivuni K. , J. Kumar Bal, Na. Jayarambabu, D. Santhosh Kumar, Venkateswara Rao K., Nanostructured ZnO gas sensors obtained by green method and combustion technique, Materials Science in Semiconductor Processing, 57 (2017) pp. 110–115., 2017 Линк
1980. Alamelu. K. Ramasami, T. N. Ravishankar, G. Nagaraju, T. Ramakrishnappa, S. R. Texteira, R Geetha Balakrishna, Gel Combustion Synthesized ZnO Nanoparticles for Visible light-assisted Photocatalytic Hydrogen Generation, Bulletin of Materials Science, 40 (2) (2017) 345-354., 2017 Линк
589. Rožić, L., Petrović, S., Radić, N., Stojadinović, S., Vasilić, R., Stefanov, P., Grbić, B.. Fractal approach to surface roughness of TiO2/WO3 coatings formed by plasma electrolytic oxidation process. Thin Solid Films, 539, Elsevier, 2013, ISSN:00406090, DOI:10.1016/j.tsf.2013.05.051, 112-116. SJR:0.693, ISI IF:1.759
Цитира се в:
1981. Erfanifar, E., Aliofkhazraei, M., Nabavi, H.F., Rouhaghdam, A.S. 'Growth kinetics and morphology of microarc oxidation coating on titanium" (2017) Surface and Coatings Technology, 315, pp. 567-576., 2017 Линк
1982. Liu, L., Zheng, C., Wu, S., Gao, X., Ni, M., Cen, K. "Manganese-cerium oxide catalysts prepared by non-thermal plasma for NO oxidation: Effect of O2 in discharge atmosphere" (2017) Applied Surface Science, 416, pp. 78-85., 2017 Линк
590. Pergal, M., Džunuzović, J., Poreba, R., Micić, D., Stefanov, P., Pezo, L., Špírková, M.. Surface and thermomechanical characterization of polyurethane networks based on poly(dimethylsiloxane) and hyperbranched polyester. Express Polymer Letters, 7, 10, Budapest University of Technology and Economics, 2013, ISSN:1788618X, DOI:10.3144/expresspolymlett.2013.78, 806-820. ISI IF:2.761
Цитира се в:
1983. Zheng, G., Lu, M., Rui, X. "The effect of polyether functional polydimethylsiloxane on surface and thermal properties of waterborne polyurethane" (2017) Applied Surface
page 190/232
Science, 399, pp. 272-281., 2017 Линк
1984. Semsarzadeh, M.A., Ghahramani, M. "Surface Energy and Thermal Stability Studies of Poly(dimethyl siloxane)–Poly(alkyl(meth)acrylate) Copolymers" (2017) Polymer - Plastics Technology and Engineering, 56 (17), pp. 1923-1936., 2017 Линк
1985. Morsi, S.M.M., Mohamed, H.A. "A comparative study of new linear and hyperbranched polyurethanes built up from a synthesized isocyanate-terminated polyester/urethane" (2017) Polymer Bulletin, 74 (12), pp. 5011-5027, 2017 Линк
1986. HS Bui, D Coleman-Nally, "Film‐Forming Technology and Skin Adhesion in Long‐Wear Cosmetics". Adhesion in Pharmaceutical, Biomedical and Dental Fields, 2017 (141–166) Scrivener Publishing LLC, 2017 Линк
591. Panayotov, D. A., DeSario, Paul A., Pietron, Jeremy J., Brintlinger, Todd H., Szymczak, Lindsey C., Morris, John R.. Ultraviolet and Visible Photochemistry of Methanol at 3D Mesoporous Networks: TiO2 and Au−TiO2. The Journal of Physical Chemistry C, 117, American Chemical Society, 2013, ISSN:1932-7447, DOI:10.1021/jp312583w, 15035-1504. ISI IF:4.772
Цитира се в:
1987. Ahn, W.; Ratchford, D. C.; Pehrsson, P. E.; Simpkins, B. S., "Surface plasmon polariton-induced hot carrier generation for photocatalysis". Nanoscale 2017, 9 (9), 3010-3022; DOI: 10.1039/C6NR09280B, 2017 Линк
1988. Fu, Y. et al. "Synthesis, characterization and photocatalytic performance of lanthanides (y, ce) doped tio2 nanosheets films". Journal of Residuals Science & Technology, 2017, 14, 9; DOI: 10.14355/jrst.2017.1403.002, 2017 Линк
1989. Majumder, D.; Roy, S., "Non-fluorinated synthesis of anatase TiO2 with dominant {001} facets: influence of faceted structures on formaldehyde sensitivity". New Journal of Chemistry 2017, 41 (15), 7591-7597;, 2017 Линк
1990. Argondizzo, A. "MULTI-PHOTON PHOTOEMISSION STUDY OF TiO2 FOR PHOTOCATALYSIS" Doctoral Dissertation, University of Pittsburgh, 2017, 2017 Линк
1991. Wang, L.; Meng, Y.; Zhang, Y.; Zhang, C.; Xie, Q.; Yao, S., "Photoelectrochemical aptasensing of thrombin based on multilayered gold nanoparticle/graphene-TiO2 and enzyme functionalized graphene oxide nanocomposites". Electrochimica Acta 2017, 249 (Supplement C), 243-252; DOI: 10.1016/j.electacta.2017.07.179, 2017 Линк
1992. Katsiev, K.; Harrison, G.; Alghamdi, H.; Alsalik, Y.; Wilson, A.; Thornton, G.; Idriss, H., "Mechanism of Ethanol Photooxidation on Single-Crystal Anatase TiO2(101)". The Journal of Physical Chemistry C 2017, 121 (5), 2940-2950; DOI: 10.1021/acs.jpcc.6b12776, 2017 Линк
1993. Calzada, L. A.; Collins, S. E.; Han, C. W.; Ortalan, V.; Zanella, R., "Synergetic effect of bimetallic Au-Ru/TiO2 catalysts for complete oxidation of methanol". Applied Catalysis B: Environmental 2017, 207 (Supplement C), 79-92; DOI: 10.1016/j.apcatb.2017.01.081, 2017 Линк
1994. Kowalska, E., "Plasmonic Photocatalysis. In Gold Nanoparticles for Physics, Chemistry and Biology", 2nd ed.; WORLD SCIENTIFIC (EUROPE): 2017; pp 319-364; DOI: 10.1142/9781786341259_0010, 2017 Линк
592. Stoyanova A., Hitkova H., Ivanova N., Bachvarova-Nedelcheva A., Iordanova R., Sredkova M.. Photocatalytic and antibacterial activity of Fe-doped TiO2 nanoparticles prepared by nonhydrolytic sol-gel method. Bulgarian Chemical Communications, 45, 4, 2013, 497-504. SJR:0.175, ISI IF:0.31
Цитира се в:
1995. Ameta R., Ameta S. A., Photocatalysis: Principles and Applications (book), CRC Press, Taylor and Francis group, 2017, p. 105., 2017 Линк
page 191/232
593. Stojkovikj, S., Najdoski, M., Koleva, V., Demiri, S.. Preparation of electrochromic thin films by transformation of manganese(II) carbonate. Journal of Physics and Chemistry of Solids, (10), 74, Elsevier, 2013, ISSN:ISSN: 0022-3697, 1433-1438. ISI IF:2.048
Цитира се в:
1996. Jamil, H., Khaleeq-ur-Rahman, M., Dildar, I. M., & Shaukat, S. (2017). Structural and optical properties of manganese oxide thin films deposited by pulsed laser deposition at different substrate temperatures. Laser Physics, 27(9), 096101., 2017 Линк
594. Lopez, M.C., Ortiz, G., Lavela, P., Tirado, J.L., Stoyanova, R., Zhecheva, E.. Tunable Ti4+/Ti3+ redox potential in to the presence of iron and calcium in NASICON-type related phosphates as electrodes for lithium batteries. Chemistry of Materials, 25, 20, ACS Publishing, 2013, DOI:10.1021/cm4020282, 4025-4035. ISI IF:8.354
Цитира се в:
1997. Zając, W., Tarach, M., & Trenczek-Zając, A. (2017). Towards control over redox behaviour and ionic conductivity in LiTi2 (PO4) 3 fast lithium-ion conductor. Acta Materialia, 140, 417-423., 2017 Линк
595. Markova-Velichkova, M., Veleva, S., Tumbalev, V., Stoyanov, L., Nihtianova, D., Mladenov, M., Raicheff, R., Kovacheva, D.. XRD and TEM characterization of the morphology of ZnO powders prepared by different methods. Bulgarian Chemical Communications, 45, 4, 2013, ISSN:0861-9808, 427-433. ISI IF:0.234
Цитира се в:
1998. Ammar, S. H., and S. A. Jaffar. "Adsorptive Desulfurization of Gas Oil Over Cu2O/AC, ZnO/AC and NiO/AC Adsorbents." Engineering and Technology Journal 35.8 Part (A) Engineering (2017): 856-863., 2017 Линк
596. Gancheva M, Iordanova R, Dimitriev Y, Avdeev G, Iliev Tzv. Effects of the mechanical activation on the structure and photocatalytic properties of ZnO powders. CENTRAL EUROPEAN JOURNAL OF CHEMISTRY, 2013, SJR:0.4, ISI IF:1.192
Цитира се в:
1999. Asvarov, A.S. et al., "Effects of the mechanoactivation treatment on the structure of ZnO–Zn cermet mixture", Crystallography Reports 62(1) (2017) 144-147, 2017
597. Koleva, V., Boyadzhieva, T., Zhecheva, E., Nihtianova, D., Simova, S., Tyuliev, G., Stoyanova, R.. Precursor-based methods for low-temperature synthesis of defectless NaMnPO4 with an olivine- and maricite-type structure. CrystEngComm, 15, RSC Publishing, 2013, ISSN:1466-8033, DOI:10.1039/C3CE41545G, 9080-9089. ISI IF:4.034
Цитира се в:
2000. Мария Лазарова Калъпсъзова, „Натриеви интеркалационни оксиди като катодни материали за екологични йонни батерии”, Докторска дисертация, 2017, Българска академия на науките, София (лит. 96)., 2017
2001. W.-J. Li, C. Han, W. Wang, F. Gebert, S.-L. Chou, H.-K. Liu, X. Zhang, S.-X. Dou, "Commercial Prospects of Existing Cathode Materials for Sodium Ion Storage", Adv. Energy Mater., (2017) 1700274 (1-10), 2017 Линк
2002. C. Ma, Beyond Lithium: Novel Electrode Materials for Room Temperature Na-ion Batteries (Doctoral Dissertation) UC San Diego (2017)., 2017 Линк
2003. Li, Y., Lu, Y., Zhao, C., Hu, Y. S., Titirici, M. M., Li, H., ... & Chen, L. (2017). Recent advances of electrode materials for low-cost sodium-ion batteries towards practical application for
page 192/232
grid energy storage. Energy Storage Materials, 7, pp. 130-151, 2017 Линк
2004. Niu Yubin. Preparation of polyanionic electrode material and its sodium storage behavior (Doctoral Dissertation), Southwest University , ref.43, 2017 Линк
2005. Ni, Q., Bai, Y., Wu, F., Wu, C. "Polyanion-type electrode materials for sodium-ion batteries". Advanced Science, 4 (3), art. no. 1600275, 2017, 2017 Линк
598. Shalaby A., Bachvarova-Nedelcheva A., Iordanova R., Dimitriev Y.. A study on the effect of citric acid on the crystallinity of ZnO/TiO2 nanopowders. Journal of Chemical Technology and Metallurgy, 48, 2, 2013, ISSN:1314-7471 (print), 585-590. SJR:0.168
Цитира се в:
2006. Siuleiman S., Kaneva N., Bojinova A., Dimitrov D., Papazova K., ZnO/TiO2 coupled semiconductor photocatalysts, Bulgarian Chemical Communications, 49, Special Issue G (2017) pp.199–204., 2017 Линк
2007. Ramadani R., Stiadi A., Jamarun Y., Emriadi N., Arief, S., Photocatalytic performance of ZnO-ZnFe2O4 magnetic nanocomposites on degradation of Congo red dye under solar light irradiation, (2017) Journal of Materials and Environmental Science, 8 (5), pp. 1634-1643, 2017 Линк
599. Mladenov, M., Alexandrova, K., Petrov, N.V., Tsyntsarski, B., Kovacheva, D., Saliyski, N., Raicheff, R.. Synthesis and electrochemical properties of activated carbons and Li 4Ti5O12 as electrode materials for supercapacitors. Journal of Solid State Electrochemistry, 17, 8, 2013, ISSN:1432-8488, DOI:10.1007/s10008-011-1424-6, 2101-2108. ISI IF:2.009
Цитира се в:
2008. Xu, Nansheng, et al. "The Role of Pre-Lithiation in Activated Carbon/Li 4 Ti 5 O 12 Asymmetric Capacitors." Electrochimica Acta 236 (2017): 443-450., 2017 Линк
2009. Soserov, L., A. Stoyanova, and R. Stoyanova. "Activated nano-porous carbons as electrode materials for supercapacitors in aqueous electrolyte." BULGARIAN CHEMICAL COMMUNICATIONS 49 (2017): 15-21., 2017 Линк
2010. Wang, Keliang. Advanced Carbon Materials Based Electrodes for High Performance Symmetric Supercapacitors. Diss. South Dakota State University, 2017., 2017 Линк
2011. Stoyanova, Antonia. "Electrochemical Hybrid Supercapacitors Based on Activated Carbon and Iron Oxides." Journal of Progressive Research in Chemistry 4.2 (2017): 179-188., 2017 Линк
2012. Ivanova, G. D., et al. "Influence of the structure and morphology of MnO2 on the electrochemical performance of supercapacitor systems." BULGARIAN CHEMICAL COMMUNICATIONS 49 (2017): 71-76., 2017 Линк
2013. Girginov, Christian, et al. "A COMPARATIVE STUDY ON APPLICATION OF BIOGENIC HEMATITE AND MAGNETITE AS ELECTRODE MATERIALS IN HYBRID SUPERCAPACITORS." Journal of Chemical Technology and Metallurgy 52.3 (2017): 557-563., 2017 Линк
2014. Kong, L.B., Que, W., Liu, L., Boey, F.Y.C., Xu, Z.J., Zhou, K., Li, S., Zhang, T., Wang, C. Carbon based supercapacitors (2017) Nanomaterials for Supercapacitors, pp. 28-161., 2017 Линк
600. Boyadzhieva, T., Koleva, V., Stoyanova, R.. Comparative study on the formation of lithium and sodium manganese phospho-olivines. Bulgarian Chemical Communications, 45, Issue SPEC. ISSU, Bulgarian Academy of Sciences, 2013, ISSN:0324-1130, DOI:08619808, 208-2012. ISI IF:0.349
Цитира се в:
2015. Мария Лазарова Калъпсъзова, „Натриеви интеркалационни оксиди като катодни материали за екологични йонни батерии”, Докторска дисертация, 2017, Българска
page 193/232
академия на науките, София (лит. 95)., 2017
601. Georgieva, I., Trendafilova, N., Dodoff, N.. Effect of the metal…metal interactions on the absorption properties of Pt(II) and Pd(II) complexes of glyoxilic acid oxime in solution and solid state: theoretical and experimental study. Journal of Photochemistry and Photobiology A: Chemistry, 267, Elsevier, 2013, 35-48. ISI IF:2.495
Цитира се в:
2016. Romanova, J., Prabhath, M. R. R., Sadik, Y., Jarowski, P. D., Molecular Design of Organometallic Materials: Effect of the Metallophilic Interactions, Ligand, Metal, and Oxidation State, Quantum Systems in Physics, (2017) Chemistry, and Biology pp 139-158. doi:10.1007/978-3-319-50255-7_8., 2017 Линк
602. Lizzit, S., Larciprete, R., Lacovig, P., Kostov, K.L., Menzel, D.. Ultrafast Charge Transfer at Monolayer Graphene Surfaces with Varied Substrate Coupling. ACS Nano, 7, 5, ACS Publications, 2013, ISSN:1936-0851, DOI:10.1021/nn4008862, 4359–43-4366. ISI IF:12.881
Цитира се в:
2017. Politano, A. and Chiarello, G., Graphene on Pt3Ni (1 1 1): a suitable platform for tunable charge doping, electron–phonon coupling and plasmonic excitations. 2D Materials, 4(3), p.035003, 2017, 2017 Линк
2018. Garcia-Basabe, Y., Rocha, A.R., Vicentin, F.C., Villegas, C.E., Nascimento, R., Romani, E.C., de Oliveira, E.C., Fechine, G.J., Li, S., Eda, G. and Larrude, D.G., Ultrafast charge transfer dynamics pathways in two-dimensional MoS 2–graphene heterostructures: a core-hole clock approach. Physical Chemistry Chemical Physics, 19(44), pp.29954-29962, 2017, 2017 Линк
2014
603. Bachvarova-Nedelcheva A., Gegova R., Stoyanova A., Iordanova R., Copcia V. E., Ivanova N., Sandu I.. Synthesis, characterization and properties of ZnO/TiO2 powders obtained by combustion gel method. Bulg. Chem. Commun., 46, 3, 2014, ISSN:0324-1130, 585-593. SJR:0.168, ISI IF:0.24
Цитира се в:
2019. Siuleiman S., Kaneva N., Bojinova A., Dimitrov D., Papazova K., ZnO/TiO2 coupled semiconductor photocatalysts, Bulgarian Chemical Communications, 49, Special Issue G (2017) pp.199–204., 2017 Линк
2020. Zegan G., Anistoroaei D., Golovcencu L., et al, Physicochemical Properties of Advanced Nanostructured Materials for Dental Microimplant Coatings, Rev.Chim., 68 (9) (2017) 2052 – 2054., 2017 Линк
2021. Kozhukharov S., Samichkov V., et al , Actual trends in the elaboration of advanced multifunctional coating systems for the efficient protection of lightweight aircraft alloys, Corrosion Reviews, 35 (6) (2017) pp. 1-14., 2017 Линк
2022. Solleti G., Kaur S., et al, Nanostructured ZnO gas sensors obtained by green method and combustion technique, Materials Science in Semiconductor Processing 57 (2017) 110-115., 2017 Линк
2023. Perween, Shama, and Amit Ranjan, Improved visible-light photocatalytic activity in ZnTiO3 nanopowder prepared by sol-electrospinning, Solar Energy Materials and Solar Cells 163 (2017): 148-156., 2017 Линк
2024. Sobhani-Nasab, Ali, Zohreh Zahraei, Maryam Akbari, Mahnaz Maddahfar, and S. Mostafa Hosseinpour-Mashkani, Synthesis, characterization, and antibacterial activities of ZnLaFe2O4/NiTiO3 nanocomposite, Journal of Molecular Structure 1139 (2017) 430-435.,
page 194/232
2017 Линк
2025. Vignesh, K., Vijayalakshmi K. A. & Karthikeyan, N., Sol-gel synthesis and antibacterial study on BC/ZnO/TiO2 nanocomposite treated by DC glow discharge plasma, J. Adhesion Sci. Techn., 31 (10) (2017) 1075-1086., 2017 Линк
604. Tortorelli, M., Chakarova, K., Lisi, L., Hadjiivanov, K.. Disproportionation of associated Cu2+ sites in Cu-ZSM-5 to Cu+ and Cu3+ and FTIR detection of Cu3+(NO)x (x = 1, 2) species. Journal of Catalysis, 309, 2014, DOI:10.1016/j.jcat.2013.10.018, 376-385. ISI IF:6.921
Цитира се в:
2026. A. Kharchenko, "Properties of copper species stabilized in zeolite nanocrystals", Ph. D. Thesis, University of Normandy, Caen, France, 2017, 2017 Линк
605. Grigorova E., Spassova M., Spassov T., Khristov M.. Hydrogen sorption properties of 90 wt% MgH2–10 wt% MeSi2 (Me= Ti, Cr). Journal of Materials Science, 49, Springer Netherlands, 2014, ISSN:0022-2461, DOI:10.1007/s10853-013-7969-2, 2647-2652. SJR:0.93, ISI IF:2.371
Цитира се в:
2027. Wang, Y., et al. "Effect of transition metal on the hydrogen storage properties of Mg–Al alloy". Journal of Materials Science. Volume 52 (5), pp. 2392-2399, 2017, 2017 Линк
2028. Kumar, S., Tiwari, G. P. "Thermodynamics and kinetics of MgH2nfTa2O5 composite for reversible hydrogen storage application". Journal of Materials Science. Vol. 52, Pages 6962-6968, 2017, 2017 Линк
606. Georgieva, V., Aleksandrova, M., Stefanov, P., Grechnikov, A., Gadjanova, V., Dilova, T., Angelov, T.. Study of quartz crystal microbalance NO2 sensor coated with sputtered indium tin oxide film. Journal of Physics: Conference Series, 558, 1, 2014, ISSN:17426588, DOI:10.1088/1742-6596/558/1/012037, 012037. SJR:0.217
Цитира се в:
2029. Mohammad Ali Mohammadzadeh Kashan, Vineetha Kalavally, Purabi Mazumdar, Hing Wah Lee, N. Ramakrishnan, QCM Coupled Resonating Systems Under Vacuum: Sensitivity and Characteristics, IEEE Sensors Journal ( Volume: 17, Issue: 16, Aug.15, 15 2017 ), DOI: 10.1109/JSEN.2017.2719104, 2017
607. Tsoncheva T., Gallo A., Genova I., Spassova I., Marelli M., Dimitrov M., Khristova M., Atanasova G., Kovacheva D., Nihtyanova D., Dal Santo V.. Control of copper particles deposition in mesoporous SBA-15 silica by modified CVD method. Inorganica Chimica Acta, 423, 2014, 145-151. ISI IF:1.2
Цитира се в:
2030. Dragoi, B., Mazilu, I., Chirieac, A., Ciotonea, C., Ungureanu, A., Marceau, E., ... & Royer, S. (2017). Highly dispersed copper (oxide) nanoparticles prepared on SBA-15 partially occluded with the P123 surfactant: toward the design of active hydrogenation catalysts. Catalysis Science & Technology, 7(22), 5376-5385., 2017 Линк
608. Stanislava Andonova, Evgeny Vovk, Jonas Sjöblom, Emrah Ozensoy, Louise Olsson. Chemical deactivation by phosphorous under lean hydrothermal conditions over Cu/BEA NH3-SCR catalysts. Applied Catalysis B: Environmental, 147, 2014, DOI:10.1016/j.apcatb.2013.08.041, 251-263. ISI IF:9.446
Цитира се в:
2031. Rui-tang Guo, et al., "The enhanced resistance to P species of an Mn–Ti catalyst for selective catalytic reduction of NOx with NH3 by the modification with Mo" RSC Adv., 7 (2017) 19912-19923., 2017 Линк
page 195/232
2032. S. Ali, et al., "Synergistic effect between copper and cerium on the performance of Cux-Ce0.5-x-Zr0.5 (x = 0.1–0.5) oxides catalysts for selective catalytic reduction of NO with ammonia" Applied Catalysis B: Environmental, 210 (2017) 223-234., 2017 Линк
2033. Y. You, et al., "The poisoning effects of phosphorus on CeO2-MoO3/TiO2 DeNOx catalysts: NH3-SCR activity and the formation of N2O" Molecular Catalysis, 439 (2017) 15-24., 2017 Линк
2034. T. Wang, et al., "A Comparison of NO Reduction Over Mn–Cu/ZSM5 and Mn–Cu/MWCNTs Catalysts Assisted by Plasma at Ambient Temperature" Catal Surv Asia 21 (2017) 94., 2017 Линк
609. Gutzov S., Danchova N., Karakashev S. I., Khristov M., Ivanova J., Ulbikas J.. Preparation and thermal properties of chemically prepared nanoporous silica aerogels. J Sol-Gel Sci Technol, 70, Springer, 2014, ISI IF:1.532
Цитира се в:
2035. Ghazi Wakili, K., Remhof, A. Reaction of aerogel containing ceramic fibre insulation to fire exposure (2017) Fire and Materials, 41 (1), pp. 29-39., 2017 Линк
610. Oana Mihai, Catur R. Widyastuti, Stanislava Andonova, Krishna Kamasamudram, Junhui Li, Saurabh Y. .Joshi, Neal W. Currier, Aleksey Yezerets, Louise Olsson. The effect of Cu-loading on different reactions involved in NH3-SCR over Cu-BEA catalysts. Journal of Catalysis, 311, 2014, DOI:10.1016/j.jcat.2013.11.016, 170-181. ISI IF:6.844
Цитира се в:
2036. J. Liu, et al., "Design of MoFe/BetaCeO2 catalysts with a core−shell structure and their catalytic performances for the selective catalytic reduction of NO with NH3" Applied Catalysis B: Environmental, 203 (2017) 704-714., 2017 Линк
2037. X. Wang, et al., "Effect of Ceria Precursor on the Physicochemical and Catalytic Properties of Mn–W/CeO2 Nanocatalysts for NH3 SCR at Low Temperature" Industrial & Engineering Chemistry Research 56 (51) (2017) 14980-14994, 2017 Линк
2038. X. Wang, et al., "Structure–Activity Relationships of AMn2O4 (A = Cu and Co) Spinels in Selective Catalytic Reduction of NOx: Experimental and Theoretical Study" The Journal of Physical Chemistry C 121 (6) (2017) 3339-3349., 2017 Линк
2039. Q. Zheng, et al., "Study of mesoporous catalysts for conversion of 2, 3-butanediol to butenes" Journal of Catalysis, 354 (2017) 182-196., 2017 Линк
2040. X. Xiang, et al., "Investigation of low-temperature hydrothermal stability of Cu-SAPO-34 for selective catalytic reduction of NOx with NH3" Chinese Journal of Catalysis, 38(5) (2017) 918-927., 2017 Линк
2041. R. Li, et al., "Synthesis of MnNi–SAPO-34 by a one-pot hydrothermal method and its excellent performance for the selective catalytic reduction of NO by NH3" Catal. Sci. Technol., 7 (2017) 4984-4995, 2017 Линк
2042. A. Shishkin, et al., "Functionalization of SSZ-13 and Fe-Beta with Copper by NH3 and NO Facilitated Solid-State Ion-Exchange" Catalysts 7(8) (2017) 232., 2017 Линк
2043. X. Xiang, et al., "Investigation of low‐temperature hydrothermal stability of Cu‐SAPO‐34 for selective catalytic reduction of NOx with NH3" Chinese Journal of Catalysis 38 (2017) 918–927, 2017 Линк
2044. Z. Xu, et al., "Thermal Decomposition Characteristics of Ammonium Nitrate(V) in the Presence of Mn2O3/Graphene Oxide" Cent. Eur. J. Energ. Mater. 14(3) (2017) 636-659. DOI:, 2017 Линк
2045. Y. Li, et al., "The protection of CeO2 thin film on Cu-SAPO-18 catalyst for highly stable catalytic NH3-SCR performance" Chemical Engineering Journal, 330 (2017) 926-935., 2017
page 196/232
Линк
2046. X . Chen, et al., "Design strategies for SCR catalysts with improved N2 selectivity: the significance of nano-confining effects by titanate nanotubes" Environ. Sci.: Nano, 4 (2017) 437-447., 2017 Линк
2047. Y. Zhao, et al., "Effects of Ce and Nb additives on the de-NOx performance of SCR/CDPF system based on Cu-beta zeolite for diesel vehicles" Chemical Engineering Science, 164 (2017) 258-269., 2017 Линк
2048. C. Lantto, PhD Theis, "Sulfur tolerance of SCR catalysts: Development of a lab testing method" Luleå University of Technology, Department of Civil, Environmental and Natural Resources Engineering, 2017, 2017 Линк
611. Hadjiivanov, K. Identification and Characterization of Surface Hydroxyl Groups by Infrared Spectroscopy. Adv. Catal., 52, Elsevier, 2014, 99-318. ISI IF:10
Цитира се в:
2049. M. Cortés-Reyes, E. Finocchio, C. Herrera, M.A. Larrubiaa, L.J. Alemany and G. Busca, A study of Cu-SAPO-34 catalysts for SCR of NOx by ammonia, Microporous Mesoporous Mater., 241 (2017) 258 [ISI]., 2017 Линк
2050. G. Garbarino C. Wang, I. Valsamakis, S. Chitsazan, P. Riani, E. Finocchio, M. Flytzani-Stephanopoulos and G. Busca, Acido-basicity of lanthana/alumina catalysts and their activity in ethanol conversion, Appl. Catal. B, 200 (2017) 458 [ISI]., 2017 Линк
2051. M. Benzaqui, Synthesis of Metal-Organic Framework nanoparticles and mixed-matrix membrane preparation for gas separation and CO2 capture, Ph. D. Thesis, l’Université Versailles, Saint-Quentin en Yvelines, France, 2017 [GS]., 2017 Линк
2052. P. Brauer, P.L. Ng, O. Situmorang, I. Hitchcock and C. D'Agostino, Effect of Al content on number and location of hydroxyl acid species in zeolites: a DRIFTS quantitative protocol without the need for molar extinction coefficients, RSC Adv., 7 (2017) 52604 [ISI]., 2017 Линк
2053. G. Busca, Acidity and basicity of zeolites: A fundamental approach, Microporous Mesoporous Mater., 254 (2017) 3 [ISI]., 2017 Линк
2054. T. Kubota, R. Osuga, T. Yokoi and J.N. Kondo, Consideration of Acid Strength of a Single OH Group on Zeolites by Isotope Exchange Reaction with Ethane at High Temperatures, Top. Catal., 60 (2017)1496 [ISI]., 2017 Линк
2055. R. Osuga, T. Yokoi, K. Doitomi, H. Hirao and J.N. Kondo, IR Investigation of Dynamic Behavior of Brønsted Acid Sites on Zeolites at High Temperatures, J. Phys. Chem. C, 121 (2017 ) 25411 [ISI]., 2017 Линк
2056. I. Rossetti, M. Compagnoni, E. Finocchio, G. Ramis, A. Di Michele, Y. Millot and S. Dzwigaj, Ethylene production via catalytic dehydration of diluted bioethanol: A step towards an integrated biorefinery, Appl. Catal. B, 210 (2017) 407 [ISI], 2017 Линк
2057. L. Lemaitre, A. Berliet, S. Maury and M. Rivallan, Surface modifications of cobalt Fischer Tropsch catalyst followed by operando DRIFT and chemometrics, Catal. Today, 283(2017) 172 [ISI]., 2017 Линк
2058. V. Sanchez Escribano, G. Garbarino, E. Finocchio and G. Busca, γ-Alumina and Amorphous Silica–Alumina: Structural Features, Acid Sites and the Role of Adsorbed Water, Top. Catal., 60 (2017) 1554 [ISI]., 2017 Линк
2059. V.L. Sushkevich, I.I. Ivanova and A.V. Yakimov, Revisiting Acidity of SnBEA Catalysts by Combined Application of FTIR Spectroscopy of Different Probe Molecules, J. Phys. Chem. C, 121 (2017) 11437 [ISI]., 2017 Линк
2060. O.S. Travkina, M.R. Agliullin, N.A. Filippova, A.N. Khazipova, I.G. Danilova, N.G. Grigoreva,
page 197/232
N. Narender, M.L. Pavlova and B.I. Kutepova, Template-free synthesis of high degree crystallinity zeolite Y with micro–meso–macroporous structure, RSC Adv., 7 (2017) 32581 [ISI]., 2017 Линк
2061. W. Cejka, W.J. Roth and M. Opanasenko, in Comprehensive Supramolecular Chemistry II (J. Jayawickramarajah and A.J. Wilson) Elsevier, Amsterdam, 2017, p. 475, 2017 Линк
2062. M. Compagnoni, Catalytic and photocatalytic processes for the production of alternative fuels and chemicals from renewable sources, Ph. D. Thesis, Università degli Studi di Milano, Milano, Italy, 2017 [Google]., 2017
2063. N. Djeffal, Application de la zéolite préparée à partir de source naturelle pour l'élimination des polluants, Ph. D. Thesis, Université Larbi Ben M'hidi, Oum El Bouaghi, Algeria, 2017 [GS]., 2017 Линк
2064. M. Arapova, Synthesis and properties of the Ni-based catalysts for the valorization of ethanol and glycerol via steam reforming reaction for hydrogen production, Ph. D. Thesis, University of Strasbourgh, Strasbourgh, France, 2017 [GS]., 2017 Линк
612. Genova, I., Tsoncheva, T., Dimitrov, M., Paneva, D., Tsyntsarski, B., Ivanova, R., Cherkezova-Zheleva, Z., Budinova, T., Kovacheva, D., Mitov, I., Petrov, N.. Cobalt ferrite nanoparticles hosted in activated carbon from renewable sources as catalyst for methanol decomposition. Catalysis Communications, 55, 2014, ISSN:15667367, DOI:10.1016/j.catcom.2014.06.013, 43-48. ISI IF:3.699
Цитира се в:
2065. DEMET, Atıf Emre. "BIOMASS VALORIZATION FOR THE PRODUCTION OF VALUE-ADDED CHEMICALS AND BIO-FUELS.", 2017 Линк
2066. Fitriyanti, E., and B. Purnama. "Comparison XRD pattern of CoFe2O4 thin films and nanoparticles." Journal of Physics: Conference Series. Vol. 909. conference 1 IOP Publishing, 2017, 012010., 2017 Линк
613. StefanieTamm, Stanislava Andonova, Louise Olsson. Silver as Storage Compound for NOx at Low Temperatures. Catalysis Letters, 144, 2014, DOI:10.1007/s10562-014-1211-y, 674-684. ISI IF:2.799
Цитира се в:
2067. Y. Ji, et al., "Pt- and Pd-Promoted CeO2–ZrO2 for Passive NOx Adsorber Applications" Industrial & Engineering Chemistry Research 56 (1) (2017 ) 111-125, 2017 Линк
614. Kersten, M., Tunega, D., Georgieva, I., Vlasova, N., Branscheid, R.. Adsorption of the Herbicide 4-Chloro-2-methylphenoxyacetic acid (MCPA) by Goethite. Environmental Science and Technology, 48, American Chemical Society, 2014, DOI:10.1021/es502444c, 11803-11810. ISI IF:5.481
Цитира се в:
2068. Zhang, X., Cheng, C., Qian, J., Lu, Z., Pan, S., Pan, B. , Highly Efficient Water Decontamination by Using Sub-10 nm FeOOH Confined within Millimeter-Sized Mesoporous Polystyrene Beads, Environmental Science and Technology, 51 (16), 9210-9218., 2017 Линк
2069. Zhou, L., Xiu, F., Qiu, M., Xia, S. and Yu, L., The adsorption and dissociation of water molecule on goethite (010) surface: A DFT approach (2017) Applied Surface Science, 392, pp.760-767., 2017 Линк
2070. Ćwielag-Piasecka, I., Witwicki, M., Jerzykiewicz, M., Jezierska, J., Can Carbamates Undergo Radical Oxidation in the Soil Environment? A Case Study on Carbaryl and Carbofuran (2017) Environmental Science and Technology, 51 (24), pp. 14124-14134., 2017 Линк
2071. Karimzadeh, L., Barthen, R., Stockmann, M., Gruendig, M., Franke, K. and Lippmann-Pipke, J. (2017) Effect of glutamic acid on copper sorption onto kaolinite-Batch experiments and surface complexation modeling. Chemosphere, 178, pp.277-281., 2017 Линк
page 198/232
2072. Kamaraj, R., Pandiarajan, A., Gandhi, M.R., Shibayama, A. and Vasudevan, S., 2017. Eco–friendly and Easily Prepared GrapheneNanosheets for Safe Drinking Water: Removal of Chlorophenoxyacetic Acid Herbicides. ChemistrySelect, 2(1), pp.342-355., 2017 Линк
2073. Ma, J., Zhu, C., Lu, J., Ouyang, B., Xie, Q., Liu, H., Peng, S., Chen, T. , Kinetics analysis of interfacial electron-transfer processes in goethite suspensions systems, Chemosphere, 188, 667-676, 2017, 2017 Линк
2074. Feng, X., Jiang, F., Chen, H., Chen, J. , Photodegradation of 2-methyl-4-chlorophenoxyacetic acid and its dechlorination product, Chinese Journal of Environmental Engineering, 11 (2), 921-926, 2017., 2017 Линк
615. Kamburov, S, Schmidt, H, Voigt, W, Balarew, C. Similarities and peculiarities between the crystal structures of the hydrates of sodium sulfate and selenite. Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials, 70, 4, John Wiley and Sons Inc., 2014, ISSN:2052-5206, DOI:10.1107/S2052520614007653, 714-722. SJR:0.748, ISI IF:2.184
Цитира се в:
2075. Mahendra Kumar Trivedi et al. Evaluation of the Physicochemical, Spectral, Thermal and Behavioral Properties of Sodium Selenate After the Energy of Consciousness Healing Treatment. Science Journal of Analytical Chemistry. Vol. 5, No. 2, pp. 28-37. doi: 10.11648/j.sjac.20170502.12, 2017, 2017 Линк
616. Hadjiivanov, K., Mihaylov, M., Panayotov, D., Ivanova, E., Chakarova, K.. Isotopes in the FTIR investigations of solid surfaces. From the book: SPECTROSCOPIC PROPERTIES OF INORGANIC AND ORGANOMETALLIC COMPOUNDS: Volume 45, Chapter 2, 45, RSC, 2014, ISBN:978-1-84973-919-1, DOI:10.1039/9781782621485-00043, 36, 43-78. SJR:0.44
Цитира се в:
2076. C.M. Kalamaras, G.G. Olympiou, V.I. Pârvulescu, B. Cojocaru and A.M. Efstathiou, "Selective catalytic reduction of NO by H2/C3H6 over Pt/Ce1-xZrxO2-δ: The synergy effect studied by transient techniques", Appl. Catal. B, 206 (2017) 308–318., 2017 Линк
617. Najdoski M., Koleva V., Samet A.. Effect of Deposition Conditions on the Electrochromic Properties of Nanostructured Thin Films of Ammonium Pentoxide Xerogel. The Journal of Physical Chemistry C, 118, 18, ACS Publications, 2014, ISSN:1932-7447 (print), 1932-7455 (Web), 9636-9646. ISI IF:4.772
Цитира се в:
2077. Sarkar, A., Sarkar, S., & Mitra, S. (2017). Exceptionally high Sodium-ion Battery Cathode Capacity-Based on Doped Ammonium Vanadium Oxide and Full Cell SIB Prototype Study. Journal of Materials Chemistry A. 2017, 5, 24929-24941. DOI 10.1039/C7TA08104A, 2017 Линк
2078. Panagopoulou, M., Vernardou, D., Koudoumas, E., Katsarakis, N., Tsoukalas, D., & Raptis, Y. S. Tunable Properties of Mg-doped V2O5 Thin Films for Energy Applications: Li-ion Batteries and Electrochromics. The Journal of Physical Chemistry C. 121 (1), 2017, pp 70–79., 2017 Линк
618. Grbić, B., Radić, N., Stojadinović, S., Vasilić, R., Dohčević-Mitrović, Z., Šaponjić, Z., Stefanov, P.. TiO2/WO3 photocatalytic composite coatings prepared by spray pyrolysis. Surface and Coatings Technology, 258, Elsevier, 2014, ISSN:02578972, DOI:10.1016/j.surfcoat.2014.07.082, 763-771. SJR:0.96, ISI IF:2.374
Цитира се в:
2079. Al-Hetlani, E., Amin, M.O., Madkour, M. "Detachable photocatalysts of anatase TiO2 nanoparticles: Annulling surface charge for immediate photocatalyst separation" (2017) Applied Surface Science, 411, pp. 355-362., 2017 Линк
page 199/232
2080. Hunge, Y.M., Mahadik, M.A., Bulakhe, R.N., Yadav, S.P., Shim, J.J., Moholkar, A.V., Bhosale, C.H. "Oxidative degradation of benzoic acid using spray deposited WO3/TiO2 thin films" (2017) Journal of Materials Science: Materials in Electronics, 28 (23), pp. 17976-17984., 2017 Линк
2081. Narendra Singh et al., Design and engineering of high-performance photocatalytic systems based on metal oxide–graphene–noble metal nanocomposites, Mol. Syst. Des. Eng., 2017, 2, 422-439, 2017 Линк
2082. Umukoro, E.H., Peleyeju, M.G., Ngila, J.C., Arotiba, O.A. "Towards wastewater treatment: Photo-assisted electrochemical degradation of 2-nitrophenol and orange II dye at a tungsten trioxide-exfoliated graphite composite electrode" (2017) Chemical Engineering Journal, 317, pp. 290-301., 2017 Линк
2083. Hunge, Y.M. "Sunlight assisted photoelectrocatalytic degradation of benzoic acid using stratified WO3/TiO2 thin films" (2017) Ceramics International, 43 (13), pp. 10089-10096, 2017 Линк
2084. Vasilaki, E., Vernardou, D., Kenanakis, G., Vamvakaki, M., Katsarakis, N. "TiO2/WO3 photoactive bilayers in the UV-Vis light region"' (2017) Applied Physics A: Materials Science and Processing, 123 (4), pp. 231-238., 2017 Линк
619. Milenova, K., Avramova, I., Eliyas, A., Blaskov, V., Stambolova, I., Kassabova, N.. Application of activated M/ZnO (M = Mn, Co, Ni, Cu, Ag) in photocatalytic degradation of diazo textile coloring dye. Environmental Science and Pollution Research, 2014, ISI IF:2.828
Цитира се в:
2085. Saleh, S.M., Soliman, A.M., Sharaf, M.A., Kale, V., Gadgil, B. Influence of solvent in the synthesis of nano-structured ZnO by hydrothermal method and their application in solar-still (2017) Journal of Environmental Chemical Engineering, 5 (1), 2017 Линк
2086. Kadam, A.N., Kim, T.G., Shin, D.S., Garadkar, K.M., Park, J. Morphological evolution of Cu doped ZnO for enhancement of photocatalytic activity (2017) Journal of Alloys and Compounds, 710, pp. 102-113., 2017 Линк
620. Kalapsazova, M., Stoyanova, R., Zhecheva, E., Tyuliev, G., Nihtianova, D. Sodium deficient nickel-manganese oxides as intercalation electrodes in lithium ion batteries. Journal of Materials Chemistry A, 2, RSC, 2014, ISSN:2050-7488, DOI:10.1039/C4TA04094E, 19383-19395. ISI IF:7.443
Цитира се в:
2087. Manikandan, P., Heo, S., Kim, H. W., Jeong, H. Y., Lee, E., & Kim, Y. (2017). Structural characterization of layered Na0. 5Co0. 5Mn0. 5O2 material as a promising cathode for sodium-ion batteries. Journal of Power Sources, 363, 442-449., 2017 Линк
2088. Palanisamy, M., Kim, H. W., Heo, S., Lee, E., & Kim, Y. (2017). Insights into the Dual-Electrode Characteristics of Layered Na0. 5Ni0. 25Mn0. 75O2 Materials for Sodium-Ion Batteries. ACS Applied Materials & Interfaces, 9(12), 10618-10625., 2017 Линк
621. Panayotov, D., Mihaylov, M, Nihtianova, D., T. Spassov, Hadjiivanov, K. Spectral evidence for hydrogen-induced reversible segregation of CO adsorbed on titania-supported rhodium. Physical Chemistry Chemical Physics, 16, The Royal Society of Chemistry, 2014, ISSN:1463-9076, DOI:10.1039/c4cp01136h, 13136-1314. ISI IF:4.493
Цитира се в:
2089. M.H. Kim, J.H. Park and Y.S. Hong, Characterization of Supported Platinum Nanocrystallites with Different Sizes and These Effects on a Model Reaction, Top. Catal., 60 (2017) 773 [ISI]., 2017 Линк
page 200/232
622. Koleva, V., Stoyanova, R., Zhecheva, E., Nihtianova, D. Dittmarite Precursors for Structure and Morphology Directed Synthesis of Lithium Manganese Phospho-Olivine Nanostructures. CrystEngComm, 16, RSC, 2014, ISSN:1466-8033, DOI:10.1039/C3CE42501K, 7515-7525. ISI IF:4.034
Цитира се в:
2090. Таня Йорданова Бояджиева, “Метални фосфати като електродни материали в алкални йонни батерии”, Докторска Дисертация, 2017, Българска академия на науките, София, лит. 124., 2017
623. Dimitrov, O., Nesheva, D., Blaskov, V., Stambolova, I., Levi, Z., Tonchev, V.. Gas sensitive ZnO thin films with desired (002) or (100) orientation obtained by ultrasonic spray pyrolysis. Materials Chemistry and Physics, 3, 2014, ISI IF:2.503
Цитира се в:
2091. Marinov, G., Malinowski, N., Vasileva, M., Strijkova, V., Madjarova, V., and Babeva, T.: Influence of Deposition Parameters on the Optical and Morphological Properties of ZnO Thin Films Deposited by the Electrospray Method, Journal of Physics and Technology, Volume 1 (2017), Number 2, pp. 74-79. ISSN 2535-0536, 2017
2092. Bernardo MS, et al., Ga-doped ZnO self-assembled nanostructures obtained by microwave-assisted hydrothermal synthesis: Effect on morphology and optical properties” Journal of Alloys and Compounds, 722, 2017, Pages 920-927, 2017
2093. Yu ZX, Y.Z.Ma, Y.L.Zhao, J.B.Huang W.Z.Wang, M.Moliere, H.L.Liao, “Effect of precursor solutions on ZnO film via solution precursor plasma spray and corresponding gas sensing performances”, Applied Surface Science, Volume 412, 2017, Pages 683-689, 2017
2094. N. Malinowski N., Vasileva M., Strijkova V, Madjarova V. D. , Babeva Ts., Journal of Physics and Technology, Volume 1 (2017), Number 2, pp. 74-79, 2017
2095. D. Ali, M. Z. Butt, B. Arif, A. G. Al-Sehemi, A. A Al-Ghamdi and F. Yakuphanoglu, Li induced enhancement in c-axis orientation and its effect on structural, optical, and electrical properties of ZnO thin films, Mater. Res. Express 4 (2017) 026405, 2017 Линк
2096. S. S. Nalimova, I. E. Kononova, V. A. Moshnikov , D. Tz. Dimitrov, N. V. Kaneva, L. K. Krasteva, S. A. Syuleyman, А. S. Bojinova, K. I. Papazova, A. Ts. Georgieva, Investigation of the vapor-sensitive properties of zinc oxide layers by impedance spectroscopy, Bulgarian Chemical Communications, Volume 49, Number 1, (2017) p 121, 2017
2097. M. Rosado-Mendoza, A. I. Oliva-Avil´es and A. I. Oliva, ECS Journal of Solid State Science and Technology, 6 (7) N45-N53 (2017) N45, 2017
2098. D. Ali, M.Z. Butt, B. Arif, A. A. Al-Ghamdi, F. Yakuphanoglu, The role of Al, Ba, and Cd dopant elements in tailoring the properties of c-axis oriented ZnO thin films , Physica B: Condensed Matter, 506, (2017), pp. 83-93., 2017 Линк
624. Stoyanova, R., Ivanova, Sv., Zhecheva, E., Samoson, A., Simova, Sv., Tzvetkova, P., Barra, A.-L.. Correlations between Lithium Local Structure and Electrochemistry in Layered LiCo1-2xNixMnxO2 Oxides: 7Li MAS NMR and EPR studies. Physical Chemistry Chemical Physics, 16, 6, RSC Publisihing, 2014, ISSN:1463-9076, DOI:10.1039/C3CP54438A, 2499-2507. ISI IF:4.493
Цитира се в:
2099. Tang, M., Dalzini, A., Li, X., Feng, X., Chien, P. H., Song, L., & Hu, Y. Y. (2017). Operando EPR for Simultaneous Monitoring of Anionic and Cationic Redox Processes in Li-Rich Metal Oxide Cathodes. The journal of physical chemistry letters, 8(17), 4009-4016., 2017 Линк
625. Najdoski M., Koleva V., Samet A.. Influence of Vanadium Concentration and Temperature on the Preparation of Electrochromic Thin Films of Ammonium Intercalated Vanadium(V) Oxide Xerogel
page 201/232
Nanoribbons. Dalton Transactions, 43, RSC, 2014, 12536-12545. ISI IF:4.197
Цитира се в:
2100. Lee, S. H., Koo, J. M., Oh, S. G., & Im, S. S. (2017). Facile synthesis of ammonium vanadate nanofibers by using reflux in aqueous V 2 O 5 solution with ammonium persulfate. Materials Chemistry and Physics, 194, 313-321., 2017
2101. Lee, S. H., Cho, W. H., Hwang, D. K., Lee, T. K., Kang, Y. S., & Im, S. S. (2017). Synthesis of Poly (3, 4-ethylene dioxythiophene)/Ammonium Vanadate Nanofiber Composites for Counter Electrode of Dye-Sensitized Solar Cells. Electrochimica Acta, 245, 607-614, 2017 Линк
2102. El-Mellouhi, F., Akande, A., Motta, C., Rashkeev, S.N., Berdiyorov, G., Madjet, M.E.-A., Marzouk, A., Bentria, E.T., Sanvito, S., Kais, S., Alharbi, F.H. Solar Cell Materials by Design: Hybrid Pyroxene Corner-Sharing VO4Tetrahedral Chains (2017) ChemSusChem, 10 (9), pp. 1931-1942., 2017 Линк
626. Bachvarova-Nedelcheva A., Iordanova R., Kostov K. L., Ganev V., Yordanov St.. Synthesis, Characterization and Optical Properties of Non-Traditional Tellurite-Selenite Glasses. Opt. Mater., 36, Elsevier, 2014, ISSN:0925-3467, 1319-1328. SJR:0.721, ISI IF:1.981
Цитира се в:
2103. Kushwaha H. S., Thomas P., Vaish R., “Visible light driven multifunctional photocatalysis in TeO2-based semiconductor glass ceramics, ” J. Photon. Energy 7(1), (2017) 016502., 2017 Линк
2104. Halimah M.K., Hasnimulyati L., Zakaria A., Halim S.A., Ishak M., Azuraida A., Muhammed Al-Hada, Influence of gamma radiation on the structural and optical properties of thulium-doped glass, Materials Science & Engineering B, 226 (2017) pp. 158–163., 2017 Линк
627. T. Tsoncheva, I. Genova, M. Stoyanova, M.-M. Pohl, R. Nickolov, M. Dimitrov, E. Sarcadi-Priboczki, Mihaylov, M., Kovacheva, D., Hadjiivanov , K.. Effect of Mesoporous Silica Topology on the Formation of Active Sites in Copper Supported Catalysts for Methanol Decomposition. Applied Catalysis B: Environmental, 147, Elsevier, 2014, DOI:doi:10.1016/j.apcatb.2013.10.002, 684-697. ISI IF:7.435
Цитира се в:
2105. A. Canepa, V. Elсas, V.Vaschetti, E. Sabre, G. Eimer, S. Casuscelli, , "Selective oxidation of benzyl alcohol through eco-friendly processes using mesoporous V-MCM-41, Fe-MCM-41 and Co-MCM-41 materials., Appl. Catal. A, 545 (2017) 72 [ISI]., 2017 Линк
2106. F. Yang, B. Wang, S. Zhou, S. Long, X. Liu and Y. Kong, Micropore-enriched CuO-based silica catalyst directly prepared by anionic template-induced method and its boosting catalytic activity in olefins epoxidation, Microporous Mesoporous Mater., 246 (2017) 215 [ISI]., 2017 Линк
2107. X. Li, Y. Kong, S. Zhou, B. Wang, In situ incorporation of well-dispersed Cu–Fe oxides in the mesochannels of AMS and their utilization as catalysts towards the Fenton-like degradation of methylene blue, J. Mater. Sci., 52 (2017), 1432–1445, 2017 Линк
628. Rangelova, N., Aleksandrov, L., Angelova, T., Georgieva, N., Muller, R.. Preparation and characterization of SiO2/CMC/Ag hybrids with antibacterial properties. Carbohydrate Polymers, 101, 1, 2014, 1166-1175. ISI IF:4.219
Цитира се в:
2108. Vityazev, F.V., Fedyuneva, M. I., Golovchenko, V.V., Patova, O.A., Ipatova, FV E. A., Durnev, E. A., Martinson, E.A., Litvinets, S. G. Pectin-silica gels as matrices for controlled drug release in gastrointestinal tract. Carbohydrate Polymers 157 (2017) 9-20., 2017 Линк
page 202/232
2109. Su, C.H., Velusamy, P., Kumar, G.V., Adhikary, S., Pandian, K., Anbu, P. Studies of antibacterial efficacy of different biopolymer protected silver nanoparticles synthesized under reflux condition. Journal of Molecular Structure 1128 (2017) 718-723., 2017 Линк
2110. Benghanem, S., Chetouani, A., Elkolli, M., Bounekhel, M., Benachour D. Grafting of oxidized carboxymethyl cellulose with hydrogen peroxide in presence of Cu(II) to chitosan and biological elucidation. Biocybernetics and Biomedical Engineering 37(1) (2017) 94-102., 2017 Линк
2111. Kuthati, Y., Kankala, R. K., . Busa, P., Lin, S-X., Deng, J-P., Mou, Ch-Y., Lee, Ch-H. Phototherapeutic spectrum expansion through synergistic effect of mesoporous silica trio-nanohybrids against antibiotic-resistant gram-negative bacterium. Journal of Photochemistry & Photobiology, B: Biology 169 (2017) 124–133., 2017 Линк
629. Amalraj, S.F., Burlaka, L., Julien, C.M., Mauger, A., Kovacheva, D., Talianker, M., Markovsky, B., Aurbach, D.. Phase transitions in Li2MnO3 electrodes at various states-of-charge. Electrochimica Acta, 123, 2014, ISSN:00134686, DOI:10.1016/j.electacta.2014.01.051, 395-404. ISI IF:4.504
Цитира се в:
2112. Leifer, Nicole, et al. "Studies of Spinel-to-Layered Structural Transformations in LiMn2O4 Electrodes Charged to High Voltages." The Journal of Physical Chemistry C 121.17 (2017): 9120-9130., 2017 Линк
2113. Shimoda, Keiji, et al. "Direct observation of layered-to-spinel phase transformation in Li 2 MnO 3 and the spinel structure stabilised after the activation process." Journal of Materials Chemistry A 5.14 (2017): 6695-6707., 2017 Линк
2114. Tan, Haiyan, et al. "Transmission electron microscopy study of epitaxial Li-Mn-O films grown by pulsed laser deposition: The effect of temperature on formation of phases." Thin Solid Films 638 (2017): 282-290., 2017 Линк
2115. Wang, Jin-Xia, et al. "Structure and Delithiation/Lithiation of the Lithium-Rich Layered Oxide Li [Li0. 23Ni0. 15Mn0. 62] O-2 as Cathode Material." INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE 12.9 (2017): 8095-8105., 2017 Линк
630. Georgieva, I., Mihaylov, Tz., Trendafilova, N.. Lanthanide and transition metal complexes of bioactive coumarins: Molecular modeling and spectroscopic studies. Journal of Inorganic Biochemistry, 135, Elsevier, 2014, 100-112. ISI IF:3.205
Цитира се в:
2116. Kircheva, V.I., Zaharieva, J, T., Manolov, I., Milanova, M.M., Synthesis and characterization of lanthanoid complexes with 3, 3'-[(4-bromophenyl) methylene] bis (4-hydroxy-2h-1-benzopyrane-2-one), (2017) Bulgarian Chemical Communications, Vol. 49, pp. 160-165., 2017 Линк
2117. Cisse, L., Djande, A., Capo-Chichi, M., Delattre, F., Saba, A., Brochon, J.C., Sanouski, S., Tine, A. and Aaron, J.J., Fluorescence Quenching of Two Coumarin-3-carboxylic Acids by Trivalent Lanthanide Ions (2017) Journal of Fluorescence, vol. 27(2), pp. 619-627.DOI: 10.1007/s10895-016-1990-1, 2017 Линк
2118. Aiyelabola, T., Akinkunmi, E., Obuotor, E., Olawuni, I., Isabirye, D. and Jordaan, J. (2017) Synthesis Characterization and Biological Activities of Coordination Compounds of 4-Hydroxy-3-nitro-2H-chromen-2-one and Its Aminoethanoic Acid and Pyrrolidine-2-carboxylic Acid Mixed Ligand Complexes. Bioinorganic Chemistry and Applications, 2017, Article ID 6426747, 9 pages., 2017 Линк
2119. Revankar, H.M., Bukhari, S.N.A., Kumar, G.B. and Qin, H.L. (2017) Coumarins Scaffolds as COX Inhibitors. Bioorganic Chemistry, 71, pp.146–159., 2017 Линк
page 203/232
631. Panchev, I., Pashova, S . D ., Radev, R . S ., Petrov, D . N ., Kovacheva, D.. Physical studies of plant wax from watermelon. Bulgarian Chemical Communications, 46, Special issue B, 2014, 20-24. ISI IF:0.349
Цитира се в:
2120. Suárez-Hernández, Ángel Manuel, et al. "Influencia del portainjerto en la calidad poscosecha de sandia." Revista Chapingo. Serie horticultura 23.1 (2017): 49-58., 2017 Линк
2121. Suárez-Hernández, Ángel Manuel, et al. "Influence of rootstock on postharvest watermelon quality." Revista Chapingo Serie Horticultura 23.1 (2017)., 2017 Линк
632. Gyurov, S., Rabadjieva, D., Kovacheva, D., Kostova, Y.. Kinetics of copper slag oxidation under nonisothermal conditions. Journal of Thermal Analysis and Calorimetry, 116, 2, 2014, ISSN:13886150, DOI:10.1007/s10973-013-3569-2, 945-953. ISI IF:2.042
Цитира се в:
2122. Grigorova, Daniela L., and Rossitza Yo Paunova. "KINETICS OF FLUXED AND CARBON COMPOSITE PELLETS CONTAINING WASTE FAYALITE.", The 49th International October Conference on Mining and Metallurgy, 2017, 2017 Линк
2123. Mihailova, Irena, Lachezar Radev, and Dimitar Mehandjiev. "PHASE COMPOSITION, STRUCTURE AND CATALYTIC ACTIVITY IN OXIDATION REACTIONS OF FAYALITE WASTE FROM THE FLOTATION OF COPPER SLAG." Journal of Chemical Technology & Metallurgy 52.5, 2017., 2017 Линк
2124. Liu, Jie; Song, Dongming; Guan, Hua, Isothermal kinetics approach to investigating the oxidation process of red phosphorus in air, JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 128 (3), pp. 1801-1810, 2017, 2017 Линк
2125. Mitovski, Aleksandra, et al. "Reaction mechanism and kinetics of sulfide copper concentrate oxidation at elevated temperatures." Metallurgical and Materials Engineering 23.3, 267-280, 2017., 2017 Линк
2015
633. Gancheva, M., Uzunov, I., Iordanova, R., Papazova, K.. Influence of the preparation method on the structure, optical and photocatalytic properties of nanosized ZnO. Materials Chemistry and Physics, 164, Elsevier, 2015, ISSN:0254-0584, 36-45. ISI IF:2.101
Цитира се в:
2126. Pargoletti, E.; Mostoni, S.; Rassu, G.; et al., Zn- vs Bi-based oxides for o-toluidine photocatalytic treatment under solar light, Environmental Science and Pollution Research , 24, (9) (2017) 8287-8296, 2017
634. Najdoski, M., Koleva, V., Stojkovikj, S., Todorovski, T.. Electrochromic Thin Films of Sodium Intercalated Vanadium(V) Oxide Xerogels: Chemical Bath Deposition and Characterization. Surface and Coatings Technology, 277, Elsevier, 2015, ISSN:0257-8972, 308-317. ISI IF:1.998
Цитира се в:
2127. Karaca, G. Y., Eren, E., Alver, C., Koc, U., Uygun, E., Oksuz, L., & Oksuz, A. U. (2017). Plasma Modified V2O5/PEDOT Hybrid Based Flexible Electrochromic Devices. Electroanalysis, 29(5), 1324-1331., 2017 Линк
2128. Azevedo, G.F., Lemos, R.M.J., Andrade, J., Castagno, K.R.L., Gundel, A., Cholant, C.M., Azevedo, C.F., Pawlicka, A., Avellaneda, C.O. Influence of Li+:V2O5 doping on Nb2O5 thin films electrochemical performance (2017) Molecular Crystals and Liquid Crystals, 655 (1),
page 204/232
pp. 71-78., 2017 Линк
635. Dimitrovska-Lazova, S., Aleksovska, S., Tzvetkov, P., Mirčeski, V., Kovacheva, D.. Influence of Y-ion substitution on structural and electrochemical characteristics of YCo0.5Fe0.5O3. Bulgarian Chemical Communications, 47, 1, Chemicals Institutes of the Bulgarian Academy of Sciences and of the Union of Chemists in Bulgaria, 2015, ISSN:0324-1130, 245-252. ISI IF:0.201
Цитира се в:
2129. Cui, Jiajia, et al. "Porous YFe0. 5Co0. 5O3 thin sheets as cathode for intermediate-temperature solid oxide fuel cells." International Journal of Hydrogen Energy 42.31 (2017): 20164-20175., 2017 Линк
636. Mihaylov, M., Ivanova, E., Aleksandrov, H., Petkov, P., Vayssilov, G., Hadjiivanov, K.. Formation of N3− during interaction of NO with reduced ceria. Chemical Communications, 51, 2015, DOI:10.1039/C5CC00500K, 5668-5674. ISI IF:6.567
Цитира се в:
2130. И. Колева, Квантово-химично моделиране на хетерогенни каталитични системи на основата на цериев диоксид. Докторска дисертация, Химически факултет, СУ “Св. Кл. Охридски”, София, 2017 [Оригиналът]., 2017
2131. Z. Peng, Z. Li, Y.-Q. Liu, S. Yan, J. Tong, D. Wang, Y. Ye and S. Li, Supported Pd nanoclusters with enhanced hydrogen spillover for NOx removal via H2-SCR: the elimination of "volcano-type" behaviour., Chem. Commun., 53 (2017) 5958 [ISI]., 2017 Линк
637. Koleva, V., Stefov, V., Najdoski, M., Cahil, A.. Thermal, Spectral and Microscopic Studies of Water-Rich Hydrate of the Type Mg2KH(PO4)2•15H2O. Thermal Transformations. Thermochimica Acta, 619, Elsevier, 2015, ISSN:0040-6031, 20-25. ISI IF:2.184
Цитира се в:
2132. Xu, B., Ma, H., Shao, H., Li, Z., & Lothenbach, B. (2017). Influence of fly ash on compressive strength and micro-characteristics of magnesium potassium phosphate cement mortars. Cement and Concrete Research, 99, 86-94., 2017 Линк
638. Guergova, D., Stoyanova, E., Stoychev, D., Avramova, I., Stefanov, P.. Self-healing effect of ceria electrodeposited thin films on stainless steel in aggressive 0.5 mol/L NaCl aqueous solution. Journal of Rare Earths, 33, 11, 2015, ISSN:1002-0721, 1212-1227. SJR:0.538, ISI IF:1.261
Цитира се в:
2133. Boudellioua, H., Hamlaoui, Y., Tifouti, L., Pedraza, F. Comparison Between the Inhibition Efficiencies of Two Modification Processes with PEG–Ceria Based Layers Against Corrosion of Mild Steel in Chloride and Sulfate Media (2017) Journal of Materials Engineering and Performance, 26 (9), pp. 4402-4414., 2017
2134. Chinizadeh, M., Kiahosseini, S.R. Deformation, microstructure, hardness, and pitting corrosion of 316 stainless steel after laser forming: A comparison between natural and forced cooling (2017) Journal of Materials Research, 32 (16), pp. 3046-3054., 2017
2135. Girčiene, O., Gudavičiute, L., Martusiene, A., Selskis, A., Jasulaitiene, V., Ramanauskas, R.Performance of bis-[triethoxysilylpropyl] tetrasulfide silane coatings for improved corrosion resistance of carbon steel (2017) Chemija, 28 (4), pp. 183-192., 2017 Линк
2136. Protsenko, V.S., Vasil'Eva, E.A., Tsurkan, A.V., Kityk, A.A., Korniy, S.A., Danilov, F.I. Fe/TiO2 composite coatings modified by ceria layer: Electrochemical synthesis using environmentally friendly methanesulfonate electrolytes and application as photocatalysts for organic dyes degradation (2017) Journal of Environmental Chemical Engineering, 5 (1), pp. 135-146., 2017
page 205/232
2137. Protsenko, V.S., Vasil’eva, E.A., Tsurkan, A.V., Danilov, F.I. Electrodeposition of electrocatalytic and photocatalytic FE/TIO2 composite coatings using methanesulfonate electrolytes (2017) Electrospinning and Electroplating: Fundamentals, Methods and Applications, pp. 177-226., 2017
639. Tsoncheva, T., Ivanova, R., Henych, J., Dimitrov, M., Kormunda, M., Kovacheva, D., Scotti, N., Santo, V.D., Štengl, V.. Effect of preparation procedure on the formation of nanostructured ceria-zirconia mixed oxide catalysts for ethyl acetate oxidation: Homogeneous precipitation with urea vs template-assisted hydrothermal synthesis. Applied Catalysis A: General, 502, Elsevier, 2015, ISSN:0926-860X, DOI:10.1016/j.apcata.2015.05.034, 418-432. SJR:1.213, ISI IF:3.942
Цитира се в:
2138. Zhou, Yi, et al. "Remarkably promoted low-temperature reducibility and thermal stability of CeO2–ZrO2–La2O3–Nd2O3 by a urea-assisted low-temperature (90° C) hydrothermal procedure." Journal of Materials Science 52.10 (2017): 5894-5907., 2017 Линк
2139. Muñoz, M. A., et al. "Highly stable ceria-zirconia-yttria supported Ni catalysts for syngas production by CO2 reforming of methane." Applied Surface Science 426 (2017): 864-873., 2017 Линк
2140. Iglesias, Ignacio, Graciela Baronetti, and Fernando Mariño. "Ceria and Ce0. 95M0. 05O2− δ mixed oxides (M = La, Pr, Zr): Vacancies and reducibility study." Solid State Ionics 309 (2017): 123-129., 2017 Линк
2141. Venkataswamy, Perala, et al. "Nanostructured Titania-Supported Ceria–Samaria Solid Solutions: Structural Characterization and CO Oxidation Activity." Catalysis Letters 147.8 (2017): 2028-2044., 2017 Линк
2142. Zhou, Yi, et al. "Synthesis and study of nanostructured Ce-Zr-La-RE-O (RE = Y, Nd and Pr) quaternary solid solutions and their supported three-way catalysts." Materials & Design, Volume 130 (2017): 149-156., 2017 Линк
2143. Hu, Rongrong, et al. "Hydrogen production by sorption-enhanced steam reforming of acetic acid over Ni/Ce x Zr 1− x O 2-CaO catalysts." International Journal of Hydrogen Energy 42.12 (2017): 7786-7797., 2017 Линк
2144. Wang, Su-Ning, et al. "Enhanced thermal stability of CeO 2-ZrO 2-Nd 2 O 3 composite by adding surfactant and its supported Rh-only three-way catalyst." Molecular Catalysis 433 (2017): 162-169., 2017 Линк
2145. Accardo, G., et al. "Gadolinium-doped ceria nanopowders synthesized by urea-based homogeneous co-precipitation (UBHP)." Materials Chemistry and Physics 187 (2017): 149-155., 2017 Линк
2146. Gao, Ce, et al. "Recyclable Cu (I)/ZrSBA-15 prepared via a mild vapor-reduction method for efficient thiophene removal from modeled oil." RSC Advances 7.11 (2017): 6605-6614., 2017 Линк
2147. Ajumobi, Oluwole O., et al. "Iron-and Cobalt-Doped Ceria–Zirconia Nanocomposites for Catalytic Cracking of Naphtha with Regenerative Capability." Energy Fuels, 31 (11), (2017), pp 12612–12623., 2017 Линк
640. Tsoncheva, T., Genova, I., Dimitrov, M., Sarcadi-Priboczki, E., Venezia, A.M., Kovacheva, D., Scotti, N., dal Santo, V.. Nanostructured copper-zirconia composites as catalysts for methanol decomposition. Applied Catalysis B: Environmental, 165, Elsevier, 2015, ISSN:0926-3373, DOI:10.1016/j.apcatb.2014.10.058, 599-610. SJR:2.088, ISI IF:7.435
Цитира се в:
2148. Scotti, Nicola, et al. "Dehydrogenative coupling promoted by copper catalysts: a way to optimise and upgrade bio-alcohols." Catalysis Science & Technology 7.6 (2017): 1386-
page 206/232
1393., 2017 Линк
2149. Korsunska, Nadiia, et al. "Effect of Cooling Rate on Dopant Spatial Localization and Phase Transformation in Cu‐Doped Y‐Stabilized ZrO2 Nanopowders." physica status solidi (c), Volume 14, Issue 12 (2017) 1700183., 2017 Линк
641. Gonzalez J. R., Menedez R., Alcantara R., Nacimento F., Tirado J. L., Zhecheva E., Stoyanova R.. High-intensity ultrasonification as a way to prepare iron oxyhydroxide hybrid electrode with high capacity in lithium battery. Ultrasonics Sonochemistry, 24, Elsevier, 2015, DOI:10.1016/j.ultsonch.2014.12.001, 238-246. ISI IF:4.321
Цитира се в:
2150. Miyatani, R., Kobayashi, Y., & Yamada, Y. (2017). Thermal reaction of sonochemically prepared amorphous Fe/C. Hyperfine Interactions, 238(1), 61., 2017 Линк
642. Milenov, T., Avramova, I.. Deposition of graphene by sublimation of pyrolytic carbon. Optical and Quantium Electronics, 47, 4, 2015, ISSN:0306-8919, 851-863. ISI IF:0.987
Цитира се в:
2151. Wu, M., Zhang, K., Huang, H., Wang, M., Li, H., Zhang, S., Wen, M. Interfacial reactions in SiCf/C/Ti17 composites dominated by texture of carbon coatings (2017) Carbon, 124, pp. 238-249., 2017 Линк
643. Nazarova, E., Balchev, N., Nenkov, K., Buchkov, K., Kovacheva, D., Zahariev, A., Fuchs, G.. Transport and pinning properties of Ag-doped FeSe0.94. Superconductor Science and Technology, 28, 2, Institute of Physics Publishing (IOP), 2015, ISSN:0953-2048, DOI:10.1088/0953-2048/28/2/025013, SJR:1.088, ISI IF:2.325
Цитира се в:
2152. Fabitha, K., et al. "Effect of Ag Addition on Microstructure and Raman Vibrational Modes of Bulk FeSe." Journal of Superconductivity and Novel Magnetism (2017): 1-6., 2017 Линк
644. Stefanov, P., Todorova, S., Naydenov, A., Tzaneva, B., Kolev, H., Atanasova, G., Stoyanova, D., Karakirova, Y., Aleksieva, K.. On the development of active and stable Pd-Co/γ-Al2O3 catalyst for complete oxidation of methane. Chemical Engineering Journal, 266, Elsevier, 2015, ISSN:13858947, DOI:DOI: 10.1016/j.cej.2014.12.099, 329-338. SJR:1.585, ISI IF:4.321
Цитира се в:
2153. Wei Hu, Guangxia Li, Jianjun Chen, Fujin Huang, Maochu Gong, Lin Zhong, Yaoqiang Chen, Enhancement of activity and hydrothermal stability of Pd/ZrO2-Al2O3 doped by Mg for methane combustion under lean conditions, 2017 Fuel 194, pp. 368-374, 2017 Линк
2154. Wei Hu, Guang-Xia Li, Jian-Jun Chen, Fu-Jin Huang, Yang Wu, Shan-Dong Yuan, Lin Zhong and Yao-Qiang Chen, Enhanced catalytic performance of a PdO catalyst prepared via a two-step method of in situ reduction–oxidation, Chem. Commun., 2017, 53, 6160-6163, 2017
2155. Ercolino, G., Stelmachowski, P., Grzybek, G., Kotarba, A., Specchia, S., Optimization of Pd catalysts supported on Co3O4 for low-temperature lean combustion of residual methane, Applied Catalysis B: Environmental, Volume 206, 5 June 2017, Pages 712-725, 2017
2156. Juntian Niu, Jingyu Ran, Xuesen Du, Wenjie Qi, Peng Zhang, Lin Yang, Effect of Pt addition on resistance to carbon formation of Ni catalysts in methane dehydrogenation over Ni-Pt bimetallic surfaces: A density functional theory study, MolecularCatalysis 434 (2017) 206–218, 2017
2157. Xuelin Zou, Zebao Rui, and Hongbing, Core–Shell NiOPdO Nanoparticles Supported on Alumina as an Advanced Catalyst for Methane Oxidation, ACS Catal., 2017, 7 (3), pp 1615–
page 207/232
1625, DOI: 10.1021/acscatal.6b0310, 2017
2158. Jodłowski, P.J., Jędrzejczyk, R.J., Chlebda, D., Gierada, M., Łojewska, J., In situ spectroscopic studies of methane catalytic combustion over Co, Ce, and Pd mixed oxides deposited on a steel surface, 2017 Journal of Catalysis 350, pp. 1-12, 2017
2159. Yuji Mahara, Takumi Tojo, Kazumasa Murata, Junya Ohyama and Atsushi Satsum, Methane combustion over Pd/CoAl2O4/Al2O3 catalysts prepared by galvanic deposition, RSC Adv., 2017, 7, 34530-34537, DOI: 10.1039/C7RA06150A, 2017
2160. Oana Mihai, Gudmund Smedler, Ulf Nylen, Marcus Olofsson and Louise Olsson, The Effect of Water during Methane Oxidation over Pd/Al2O3 in Lean, Stoichiometric and Rich Conditions, Molecular Catalysis, Volume 434, June 2017, Pages 206-218, 2017
645. Ivanov, V., Marychev, M., Andreev, P., Koseva, I, Tzvetkov, P., Nikolov, V.. Novel solvents for the single crystal growth of germanate phases by the flux method. Journal of Crystal Growth, 426, Elsevier, 2015, ISSN:0022-0248, DOI:10.1016/j.jcrysgro.2015.04.042, 25-32. ISI IF:1.462
Цитира се в:
2161. Егорова, А. Е., et al. "РОСТ И СТРУКТУРА КРИСТАЛЛОВ Ca3Ge3Cr2O12." ФИЗИКА ДИЭЛЕКТРИКОВ (ДИЭЛЕКТРИКИ-2017). 2017., 2017
646. Caballo, M., Ortiz, G., Lopez, M. C., Alcantara, R., Gonzalez, J.R, Tirado, J.L, Stoyanova, R., Zhecheva, E. Self-organaized sodium titanate/tirania nanoforest for the negative electrode for sodium-ion microbatteries. Journal of Alloys and Compounds, 646, Elsevier, 2015, ISSN:0925-8388, 816-826. ISI IF:2.999
Цитира се в:
2162. Zukalová, M., Lásková, B. P., Klementová, M., & Kavan, L. (2017). Na insertion into nanocrystalline Li 4Ti 5O12 spinel: An electrochemical study. Electrochimica Acta, Volume 245, 10 August 2017, Pages 505-511., 2017 Линк
2163. Díez‐García, M. I., Monllor‐Satoca, D., Vinoth, V., Anandan, S., & Lana‐Villarreal, T. (2017). Electrochemical Doping as a Way to Enhance Water Photooxidation on Nanostructured Nickel Titanate and Anatase Electrodes. ChemElectroChem, Volume 4, Issue 6, June 2017, Pages 1429–1435., 2017 Линк
647. Shalaby, A., Nihtianova, D., Markov, P., Staneva, A.D., Iordanova, R.S., Dimitriev, Y. B. Structural Analysis of Reduced Graphene Oxide by Transmission Electron Microscopy. Bulgarian Chemical Communications, 47, 1, Journal of the Chemicals Institutes of the Bulgarian Academy of Sciences and of the Union of Chemists in Bulgaria, 2015, ISSN:ISSN: 0324-1130, 291-295. ISI IF:0.201
Цитира се в:
2164. Balasubramaniam, M ; Balakumar, S. " On the Development of Hierarchical Nanostructures of Graphene-Zinc antimonate as Inexpensive Electrode Materials for Supercapacitors" ELECTROCHIMICA ACTA, Volume: 253 , Pages: 178-189, 2017 Линк
2165. Chen, Chun-Yu; Pu, Nen-Wen; Liu, Yih-Ming, et al. "Remarkable microwave absorption performance of graphene at a very low loading ratio", COMPOSITES PART B-ENGINEERING , Volume: 114 , Pages: 395-403, 2017 Линк
2166. Rajagopalan, Ranjusha; Chen, Bo; Zhang, Zhicheng, et al." Improved Reversibility of Fe3+/Fe4+ Redox Couple in Sodium Super Ion Conductor Type Na3Fe2(PO4)(3) for Sodium-Ion Batteries", ADVANCED MATERIALS , Volume: 29, Issue: 12 , Article Number: 1605694, 2017 Линк
2167. Nugraheni, Ananda Yogi; Jayanti, Dwi Noor; Kurniasari; et al." Structural Analysis on Reduced Graphene Oxide Prepared from Old Coconut Shell by Synchrotron X-Ray Scattering" 3RD INTERNATIONAL CONFERENCE ON FUNCTIONAL MATERIALS SCIENCE
page 208/232
2016 , Book Series: IOP Conference Series-Materials Science and Engineering , Volume: 196 , Article Number: UNSP 012007, 2017 Линк
648. Nazarova, E., Buchkov, K., Terzieva, S., Nenkov, K., Zahariev, A., Kovacheva, D., Balchev, N., Fuchs, G.. The effect of Ag addition on the superconducting properties of FeSe0.94. Journal of Superconductivity and Novel Magnetism, 28, 3, 2015, ISSN:1557-1939, DOI:10.1007/s10948-014-2821-8, 1135-1138. ISI IF:1.18
Цитира се в:
2168. Zhang, Shengnan, et al. "Influences of Ag doping on the high energy ball milling aided sintering FeSe superconductors." Journal of Materials Science: Materials in Electronics (2017): 1-7., 2017 Линк
649. Boyadzhieva, T., Koleva, V., Zhecheva, E., Nihtianova, D., Mihaylo,v L., Stoyanova, R.. Competitive lithium and sodium intercalation into sodium manganese phospho-olivine NaMnPO4 covered with carbon black. RSC Advances, 5, Royal Society of Chemistry, 2015, ISSN:2046-2069, 87694-87705. ISI IF:3.84
Цитира се в:
2169. Niu Yubin. Preparation of polyanionic electrode material and its sodium storage behavior(Doctoral Dissertation), Southwest University , ref.100, 2017 Линк
2170. Chen, L., Zhao, Y., Liu, S., & Zhao, L. (2017). Hard Carbon Wrapped Na3V2 (PO4) 3 C Porous Composite Extending Cycling Lifespan for Sodium-Ion Batteries. ACS Appl. Mater. Interfaces, 2017, 9 (51), pp 44485–44493, 2017 Линк
2171. Q. Ni, Y. Bai, F. Wu, C. Wu. Polyanion-Type Electrode Materials for Sodium-Ion Batteries. Adv. Sci. 2017, 1600275, 2017 Линк
2172. Y. Fang, J. Zhang, L. Xiao, X. Ai, Y. Cao, and Hanxi Yang. Phosphate Framework Electrode Materials for Sodium Ion Batteries. Adv. Sci. 2017, 1600392, 2017 Линк
650. Shalaby, A., Bachvarova-Nedelcheva, A., Iordanova, R., Dimitriev, Y., Stoyanova, A., Hitkova, H., Ivanova, N.. Sol-gel synthesis and properties of nanocomposites in the Ag/TiO2/ZnO system. Journal of Optoelectronics and Advanced Materials, 17, 1-2, 2015, ISSN:1454 - 4164, 248-256. ISI IF:0.429
Цитира се в:
2173. Vignesh K., Vijayalakshmi K. A. & Karthikeyan N., Sol-gel synthesis and antibacterial study on BC/ZnO/TiO2 nanocomposite treated by DC glow discharge plasma, Journal of Adhesion Science and Technology, 31 (10) (2017), pp. 1075-1086., 2017 Линк
2174. Lopera AA, Velásquez AM, Chavarriaga EA, Ocampo S, Zaghete MA, Graminha MA and Garcia CP, Synthesis by combustion in solution of Zn2TiO4+Ag for photocatalytic and photodynamic applications in the visible, IOP Conf. Series: Journal of Physics: Conf. Series 935 (2017) 012013, 2017 Линк
2175. Siuleiman S., Kaneva N., Bojinova A., Dimitrov D., Papazova D., ZnO/TiO2 coupled semiconductor photocatalysts, Bulgarian Chemical Communications, 49, Special Issue G (2017) pp.199–204., 2017 Линк
651. Ivanov, B., Spassov, I., Milanova, M., Tyuliev, G., Khristova, M.. Effect of the addition of rare earths on the activity of alumina supported copper cobaltite in CO oxidation, CH4 oxidation and NO decomposition. Journal of Rare Earths, 33, 4, Elsevier, 2015, ISSN:1002-0721, 382-390. ISI IF:1.261
Цитира се в:
2176. Meenakshi, P., Sitharaman, U., & Rajamani, N. (2017). Facile synthesis and characterization of acetate intercalated Co-La layered double hydroxide. Journal of Rare Earths, 35(5), 474-479., 2017 Линк
page 209/232
2177. Pouria, R., Vafi, L., & Karimzadeh, R. (2017). Propane catalytic cracking on pretreated La-ZSM-5 zeolite during calcination for light olefins production. Journal of Rare Earths, 35(6), 542-550., 2017 Линк
652. Kurnia Wijayanti, Stanislava Andonova, Ashok Kumar, Junhui Li, Krishna Kamasamudram, Neal W. Currier, Aleksey Yezerets, Louise Olsson. Impact of sulfur oxide on NH3-SCR over Cu-SAPO-34. Applied Catalysis B: Environmental, 166-167, 2015, DOI:10.1016/j.apcatb.2014.11.043, 568-579. ISI IF:9.446
Цитира се в:
2178. Ch. Wang, et al., "The effect of sulfate species on the activity of NH3-SCR over Cu/SAPO-34" Applied Catalysis B: Environmental, 204 (2017) 239-249., 2017 Линк
2179. W. Su, et al., "Identification of sulfate species and their influence on SCR performance of Cu/CHA catalyst", Catal. Sci. Technol., 7 (2017) 1523-1528, 2017 Линк
2180. Y.E. Jeong, et al., "Highly Active Sb–V–CeO2/TiO2 Catalyst Under Low Sulfur for NH3-SCR at Low Temperature" Catal Lett 147 (2017) 428., 2017 Линк
2181. M. Zhang, et al., "Research progress in the SO2 resistance of the catalysts for selective catalytic reduction of NOx" Chinese Journal of Chemical Engineering, 25(12) (2017) 1695-1705., 2017 Линк
2182. C. Yu, et al., "Manganese-rich MnSAPO-34 molecular sieves as an efficient catalyst for the selective catalytic reduction of NOx with NH3: one-pot synthesis, catalytic performance, and characterization" Environ Sci Pollut Res 24 (2017) 7499., 2017 Линк
2183. T. Wang, et al., "A plasma-assisted catalytic system for NO removal over CuCe/ZSM-5 catalysts at ambient temperature" Fuel Processing Technology, 158 (2017) 199-205., 2017 Линк
2184. L. Kovarik, et al., "Transformation of Active Sites in Fe/SSZ-13 SCR Catalysts during Hydrothermal Aging: A Spectroscopic, Microscopic, and Kinetics Study" ACS Catalysis 7 (4) (2017) 2458-2470, 2017 Линк
2185. M. Purfürst, et al., "Influence of soot on ammonia adsorption and catalytic DeNOx-properties of diesel particulate filters coated with SCR-catalysts" Chemical Engineering Science, 168 (2017) 423-436., 2017 Линк
2186. P. N. Panahi, "Selective catalytic reduction of NO with NH3 over the SAPO-34 supported transition metal nanocatalysts" . Reac Kinet Mech Cat ) 121 (2017) 773., 2017 Линк
2187. T. Wang, et al., "A Comparison of NO Reduction Over Mn–Cu/ZSM5 and Mn–Cu/MWCNTs Catalysts Assisted by Plasma at Ambient Temperature" Catal Surv Asia 21 (2017) 94., 2017 Линк
653. Gegova, R., Bachvarova-Nedelcheva, A., Iordanova, R., Dimitriev, Y.. Synthesis and crystallization of gels in the TiO2-TeO2-ZnO system. Bulgarian Chemical Communications, 47, 1, 2015, ISSN:0324-1130, 378-386. SJR:0.153, ISI IF:0.201
Цитира се в:
2188. Chen Q., Wang, Ma Q., Qiuhua et al., Structure, spectra and Faraday rotation in TiO2 doped diamagnetic PbO-Bi2O3-B2O3 glasses, J. Non-Cryst. Sol, vol. 464 (2017) pp. 14-22., 2017 Линк
2189. Chen, Q., Zhang, M., Wang H. et al., Structures and magneto optical property of diamagnetic TiO2-TeO2-PbOB2O3 glass, J. Non-Cryst. Sol., J. Non-Cryst. Sol, vol. 468 (2017) pp. 58-66., 2017 Линк
654. Shalaby, A., Aleksandrov, L., Iordanova, R., Staneva, A., Dimitriev, Y.. Synthesis and characterization of glass doped reduced grapheme oxide. Journal of Chemical Technology and Metallurgy, 50, 4, 2015, ISSN:1314-7978, 474-477. SJR:0.168
page 210/232
Цитира се в:
2190. S, Eqtesadi at al. Reinforcement with reduced graphene oxide of bioactive glass scaffolds fabricated by robocasting"". Journal of the European Ceramic Society. 37, 12, 3695-3704, 2017., 2017 Линк
655. Ataalla, M., Milanova, M., Aleksandrov, L., Iordanova, R., Staneva, A., Dimitriev, Y.. Glass formation and structure of glasses in the ZnO-WO3-La2O3-Al2O3 system. Journal of Chemical Technology and Metallurgy, 50, 4, University of Chemical Technology and Metallurgy, 2015, ISSN:1314-7471, 423-428. SJR:0.168
Цитира се в:
2191. Q, Zhu at al.. The forming region and mechanical properties of CaO-Al2O3-SiO2 system. Ceramics International. 43, 16, 13810-13816, 2017, 2017
656. Stoyanova A., Ivanova N., Bachvarova-Nedelcheva A., Iordanova R.. Synthesis and photocatalytic performance of Fe (III), N co-doped TiO2 nanoparticle. Bulgarian Chemical Communications, 47, 1, 2015, ISSN:0324-1130, 330-335. SJR:0.153, ISI IF:0.201
Цитира се в:
2192. Bayan E.M., Lupeiko T. G., Pustovaya L. E., Knyashchuk A. A., Fedorenko A. G., Synthesis, phase formation, and properties of nanomaterials based on the titanium dioxide−iron(III) oxide binary system, Russian Journal of Physical Chemistry B, 11 (4) (2017) 600–605., 2017 Линк
657. Vasilić, R., Stojadinović, S., Radić, N., Stefanov, P., Dohčević-Mitrović, Z., Grbić, B.. One-step preparation and photocatalytic performance of vanadium doped TiO2 coatings. Materials Chemistry and Physics, 151, 1, Elsevier Ltd, 2015, ISSN:02540584, DOI:10.1016/j.matchemphys.2014.11.077, 337-344. SJR:0.733, ISI IF:2.101
Цитира се в:
2193. Zhao, X., Wang, Y., Feng, W., Lei, H., Li, J. "Preparation of Cu(II) porphyrin-TiO2 composite in one-pot method and research on photocatalytic property" (2017) RSC Advances, 7 (83), pp. 52738-52746., 2017 Линк
2194. Xiao, J., Pan, Z., Zhang, B., Liu, G., Hu, G., Xiao, C., Wei, Z., Zheng, Y. "The research of photocatalytic activity on Si doped TiO2 nanotubes" (2017) Materials Letters, 188, pp. 66-68., 2017 Линк
2195. Vasilyeva, M.S., Rudnev, V.S., Tarabrina, D.A. "Photocatalytic properties of Zn- and Cd-containing oxide layers on titanium formed by plasma electrolytic oxidation" (2017) Protection of Metals and Physical Chemistry of Surfaces, 53 (4), pp. 711-715., 2017 Линк
2196. Zhao, D., Lu, Y., Zeng, X., Wang, Z., Liu, S., Wang, T. "Antifouling property of micro-arc oxidation coating incorporating Cu2O nanoparticles on Ti6Al4V" (2017) Surface Engineering, 33 (10), pp. 796-802., 2017 Линк
658. Gancheva, M., Naydenov, A., Iordanova, R., Nihtianova, D., Stefanov, P.. Mechanochemically assisted solid state synthesis, characterization, and catalytic properties of MgWO4. Journal of Materials Science, 26, 11, Springer, 2015, ISSN:0022-2461, DOI:10.1007/s10853-015-8904-5, 3447-3456. ISI IF:2.302
Цитира се в:
2197. Bhuyan, Prabal Dev, et al. "Experimental and theoretical analysis of electronic and optical properties of MgWO4." Journal of Materials Science 52.9 (2017): 4934-4943., 2017 Линк
659. Iordanova, R., Ataalla, M., Milanova, M., Aleksandrov, L., Staneva, A., Dimitriev, Y.. Glass formation
page 211/232
and structure of glasses in the WO3-ZnO-Nd2O3-Al2O3 system. Journal of Non-Crystalline Solids, 414, elsevier, 2015, ISSN:0022-3093, DOI:10.1016/j.jnoncrysol.2015.02.010, 42-50. SJR:0.753, ISI IF:1.766
Цитира се в:
2198. Gao, R, et al. "The forming region and mechanical properties of SiO2-Al2O3-MgO glasses" (2017), J. Non-Cryst. Solids, 470, 132-137., 2017 Линк
660. Tsoncheva, T., Velinov, N., Ivanova, R., Stoycheva, I, Tsyntsarski, B., Spassova, I., Paneva, D., Issa, G., Kovacheva, D, Genova, I., Mitov, I., Petrov, N.. Formation of catalytic active sites in iron modified activated carbons from agriculture residues. Microporous and Mesoporous Materials, 217, Elsevier, 2015, 87-95. ISI IF:3.453
Цитира се в:
2199. Juhola, R., Heponiemi, A., Tuomikoski, S., Hu, T., Vielma, T., & Lassi, U. (2017). Preparation of Novel Fe Catalysts from Industrial By-Products: Catalytic Wet Peroxide Oxidation of Bisphenol A. Topics in Catalysis, Volume 60, Issue 17–18, (2017): 1387–1400., 2017 Линк
2200. Sun, Z., Chai, L., Shu, Y., Li, Q., Liu, M., & Qiu, D. (2017). Chemical bond between chloride ions and surface carboxyl groups on activated carbon. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 530, 53-59., 2017 Линк
661. Aleksandrov, L., Komatsu, T., Shinozaki, K., Honma, T., Iordanova, R.. Structure of MoO3-WO3-La2O3-B2O3 glasses and crystallization of LaMo1-xWxBO6 solid solution. Journal of Non-Crystalline Solids, 429, Elsevier, 2015, ISSN:0022-3093, DOI:10.1016/j.jnoncrysol.2015.09.004, 171-177. ISI IF:1.766
Цитира се в:
2201. Lakshminarayana G., at al. Structural, thermal and optical investigations of Dy3+-doped B2O3–WO3–ZnO–Li2O–Na2O glasses for warm white light emitting applications. Journal of Luminescence. 186, 283-300, 2017, 2017 Линк
2202. A, Balakrishna at al. Structural evolution induced by substitution of designated molybdate sites (MoO4−2) with different anionic groups (BO3−3, PO4−3 and SO4−2) in CaMoO4:Sm3+ phosphors-A study on color tunable luminescent properties. Journal of Alloys and Compounds. 727, 224-237, 2017, 2017 Линк
662. Sachse, А, Cardoso, L., Kostov, K.L., Gerardin, C., Belamie, E., Alonso, B.. Mesoporous alumina from colloidal bio-templating of Al clusters. Chemistry-A European Journal, 21, 8, Wiley-VCH Verlag GmbH& 3206 Co. KGaA, Weinheim, 2015, ISSN:1521-3765, DOI:10.1002/chem.201405444, 3206-3210. SJR:2.7, ISI IF:5.731
Цитира се в:
2203. Meseck, G.R., Terpstra, A.S. and MacLachlan, M.J., 2017. Liquid Crystal Templating of Nanomaterials with Nature’s Toolbox. Current Opinion in Colloid & Interface Science, 29, May 2017, Pages 9–20, 2017 Линк
2204. Chau, T.T.L., Le, D.Q.T., Le, H.T., Nguyen, C.D., Nguyen, L.V. and Nguyen, T.D., Chitin Liquid-Crystal-Templated Oxide Semiconductor Aerogels. ACS applied materials & interfaces, 9(36), pp.30812-30820, 2017, 2017 Линк
2205. Wysokowski, M., Motylenko, M., Rafaja, D., Koltsov, I., Stöcker, H., Szalaty, T.J., Bazhenovd, V.V., Stelling, A.L., Beyer, L., Heitmann, J., Jesionowski, T., Petovic, S., Đurović, M., Ehrlich, H., Extreme biomimetic approach for synthesis of nanocrystalline chitin-(Ti, Zr)O2 multiphase composites, Materials Chemistry and Physics, Volume 188, 15 February 2017, Pages 115–124, 2017 Линк
2206. Wysokowski, M., Kaiser, S. and Jesionowski, T., Hydrothermal Synthesis of Advanced Chitin-Based Materials. In Extreme Biomimetics (pp. 223-249), 2017. Springer
page 212/232
International Publishing, 2017 Линк
663. Voleská, I., Nachtigall, P., Ivanova, E., Hadjiivanov, K., Bulánek, R.. Theoretical and experimental study of CO adsorption on Ca-FERzeolite. Catalysis Today, 243, 2015, DOI:10.1016/j.cattod.2014.07.029, 53-61. ISI IF:3.893
Цитира се в:
2207. K. Khivantsev, A. Vityuk, H.A. Aleksandrov, G.N. Vayssilov, D.A. Blom, O.S. Alexeev and M.D. Amiridis, Synthesis, Modeling, and Catalytic Properties of HY Zeolite-Supported Rhodium Dinitrosyl Complexes, ACS Catal., 7 (2017) 5965 [ISI]., 2017 Линк
664. Tsoncheva, T., Genova, I., Stoycheva, I., Spassova I., Ivanova, R., Tsyntsarski, B., Issa, G., Kovacheva, D., Petrov, N.. Activated carbon from waste biomass as catalyst support: formation of active phase in copper and cobalt catalysts for methanol decomposition. Journal of Porous Materials, 22, 5, Springer, 2015, ISSN:1380-2224, 1127-1136. ISI IF:1.108
Цитира се в:
2208. Asuquo, E., Martin, A., Nzerem, P., Siperstein, F., Fan, X. Adsorption of Cd(II) and Pb(II) ions from aqueous solutions using mesoporous activated carbon adsorbent: Equilibrium, kinetics and characterisation studies, Journal of Environmental Chemical Engineering, 5 (1), (2017): 79-698., 2017 Линк
2209. Abdedayem, A., Guiza, M., Toledo, F. J. R., & Ouederni, A. (2017). Nitrobenzene degradation in aqueous solution using ozone/cobalt supported activated carbon coupling process: A kinetic approach. Separation and Purification Technology, 184, 308-318., 2017 Линк
2210. Guiza, M., Abdedayem, A., Ghouma, I., & Ouederni, A. (2017). EFFECT OF COPPER AND NICKEL SUPPORTED ACTIVATED CARBON CATALYSTS ON THE SIMULTANEOUS ADSORPTION/OZONATION PROCESS OF NITROBENZENE DEGRADATION. Journal of Chemical Technology and Metallurgy, 52, 5, (2017): 836-851., 2017 Линк
2211. Abdedayem, A., Guiza, M., Rivas Toledo, F. J., & Ouederni, A. (2017). Ozone Decomposition over Cobalt Supported on Olive Stones Activated Carbon: Effect of Preparation Method on Catalysts Activity. Ozone: Science & Engineering, 39, 435-446., 2017 Линк
2212. Aziz, M., Theleritis, D., Al‐Shehri, M. O., Ahmed, M. I., Qamaruddin, M., Hakeem, A. S., ... & Qasem, M. A. A. (2017). A Simple and Direct Preparation of a Substrate‐Free Interconnected Nanostructured Carbon Electrode from Date Palm Leaflets for Detecting Hydroquinone. Chemistry Select, 2(17), 4787-4793, 2017
665. Sachse, А, Hulea, V., Kostov, K.L., Belamie, E., Alonso, B.. Improved silica-titania catalysts by chitin bio-templating. Catalysis Science and Technology, 5, 1, The Royal Society of Chemistry, 2015, ISSN:20444761, DOI:10.1039/c4cy00978a, 415-427. SJR:1.68, ISI IF:5.426
Цитира се в:
2213. Wysokowski, M., Motylenko, M., Rafaja, D., Koltsov, I., Stöcker, H., Szalaty, T.J., Bazhenov, V.V., Stelling, A.L., Beyer, J., Heitmann, J., Jesionowski, T., Petovic, S., Đurović, M., Ehrlich, H., Extreme biomimetic approach for synthesis of nanocrystalline chitin-(Ti, Zr)O2 multiphase composites, Materials Chemistry and Physics, Volume 188, 15 February 2017, Pages 115–124., 2017 Линк
2214. Wysokowski, M., Kaiser, S. and Jesionowski, T., Hydrothermal Synthesis of Advanced Chitin-Based Materials. In Extreme Biomimetics (pp. 223-249), 2017. Springer International Publishing, 2017 Линк
2215. Meseck, G.R., Terpstra, A.S. and MacLachlan, M.J., 2017. Liquid Crystal Templating of
page 213/232
Nanomaterials with Nature’s Toolbox. Current Opinion in Colloid & Interface Science 29, May 2017, Pages 9–20, 2017 Линк
2216. Trang The Lieu Chau, Dung Quang Tien Le, Hoa Thi Le, Cuong Duc Nguyen, Long Viet Nguyen, and Thanh-Dinh Nguyen, Chitin Liquid-Crystal-Templated Oxide Semiconductor Aerogels, ACS Appl. Mater. Interfaces 2017 9 (36), pp 30812–30820., 2017 Линк
2217. Chau, T.T.L., Le, D.Q.T., Le, H.T., Nguyen, C.D., Nguyen, L.V. and Nguyen, T.D., 2017. Chitin Liquid-Crystal-Templated Oxide Semiconductor Aerogels. ACS applied materials & interfaces, 9(36), pp.30812-30820, 2017 Линк
666. Mihaylov, M., Ivanova, E., Aleksandrov, H., Petkov, P., Vayssilov, G., Hadjiivanov, K.. FTIR and density functional study of NO interaction with reduced ceria: Identification of N3− and NO2− as new intermediates in NO conversion. Applied Catalysis B Environmental, 176-177, 2015, DOI:10.1016/j.apcatb.2015.03.054, 107-119. SJR:2.088, ISI IF:8.51
Цитира се в:
2218. J. Mañogil, Desarrollo de catalizadores basados en Cu/ceria-zirconia para la combustion de carbonilla y eliminacion de NOx en motores diesel, Ph. D. Thesis, Universidad de Alicante, Alicante, Spain, 2017 [GS]., 2017
667. Marinova, D, Karadjova, V, Stoilova , D. Infrared spectroscopic study of SO42− ions included in M′2M′′(SeO4)2.6H2O (Me′=K, NH4+; M′′=Mg, Co, Ni, Cu, Zn) and NH4+ ions included in K2M(XO4)2.6H2O (X=S, Se; M=Mg, Co, Ni, Cu, Zn). Spectrochimica Acta A, 134, 0.6, Elsevier, 2015, ISSN:1386-1425, DOI:10.1016/j.saa.2014.06.114, 526-534. SJR:0.595, ISI IF:2.353
Цитира се в:
2219. Souamti, A., et all "Synthesis, characterization and thermal behavior of new rare earth ion-doped picromerite-type Tutton’s salts". Journal of Thermal Analysis and Calorimetry, 128(2), 1001-1008. 2017, 2017 Линк
2220. Gurzhiy, V. V., et all "Selective Se-for-S substitution in Cs-bearing uranyl compounds". Journal of Solid State Chemistry, 248, 126-133. 2017, 2017 Линк
668. Kalapsazova, M., Ortiz, G. F., Tirado, J. L., Dolotko, O., Zhecheva, E., Nihtyanova, D., Mihaylov, L., Stoyanova, R.. P3-type of layered sodium-deficient nickel-manganese oxides: a flexible structural matrix for reversible sodium and lithium intercalation. ChemPlusChem, 80, 11, Wiley, 2015, ISSN:2192-6506, 1642-1656. ISI IF:3.026
Цитира се в:
2221. Cabello, M., Chyrka, T., Klee, R., Aragon, M.J., Bai, X., Lavela, P., Vasylchenko, G.M., Alcántara, R., Tirado, J.L., Ortiz, G.F. ''Treasure Na-ion anode from trash coke by adept electrolyte selection''. Journal of Power Sources, 347, pp. 127-135, 2017, 2017 Линк
2222. Ortiz-Vitoriano, N., Drewett, N. E., Gonzalo, E., & Rojo, T. (2017). High performance manganese-based layered oxide cathodes: overcoming the challenges of sodium ion batteries. Energy & Environmental Science, 10(5), 1051-1074., 2017 Линк
2223. Sathiya, M., Thomas, J., Batuk, D., Pimenta, V., Gopalan, R., & Tarascon, J. M. (2017). Dual Stabilization and Sacrificial Effect of Na2CO3 for Increasing Capacities of Na-Ion Cells Based on P2-Na x MO2 Electrodes. Chemistry of Materials, 29(14), 5948-5956., 2017 Линк
2224. Maddukuri, S., Valerie, P., & Upadhyayula, V. V. (2017). Synthesis and Electrochemical Study of New P3 Type Layered Na0. 6Ni0. 25Mn0. 5Co0. 25O2 for Sodium‐Ion Batteries. ChemistrySelect, 2(20), 5660-5666., 2017 Линк
2225. Manikandan, P., Heo, S., Kim, H. W., Jeong, H. Y., Lee, E., & Kim, Y. (2017). Structural characterization of layered Na0. 5Co0. 5Mn0. 5O2 material as a promising cathode for sodium-ion batteries. Journal of Power Sources, 363, 442-449., 2017 Линк
page 214/232
2226. Wang, Q., Zhao, C., Lu, Y., Li, Y., Zheng, Y., Qi, Y., ... & Pan, D. (2017). Advanced Nanostructured Anode Materials for Sodium‐Ion Batteries. Small 13(42), 1701835., 2017 Линк
2227. Zhao, C., Wang, Q., Lu, Y., Hu, Y. S., Li, B., & Chen, L. (2017). Review on anionic redox for high-capacity lithium-and sodium-ion batteries. Journal of Physics D: Applied Physics, 50(18), 183001., 2017 Линк
2228. Lee, S. Y., Kim, J. H., & Kang, Y. C. (2017). Electrochemical properties of P2-type Na 2/3 Ni 1/3 Mn 2/3 O 2 plates synthesized by spray pyrolysis process for sodium-ion batteries. Electrochimica Acta, 225, 86-92., 2017 Линк
669. Stojadinović, S., Tadić, N., Radić, N., Stefanov, P., Grbić, B., Vasilić, R.. Anodic luminescence, structural, photoluminescent, and photocatalytic properties of anodic oxide films grown on niobium in phosphoric acid. Applied Surface Science, 355, Elsevier, 2015, ISSN:0169-4332, DOI:10.1016/j.apsusc.2015.07.174, 912-920. SJR:0.913, ISI IF:2.711
Цитира се в:
2229. MATYKINA, E., ARRABAL, R., MOHEDANO, M., MINGO, B., GONZALEZ, J., PARDO, A., MERINO, M.C. "Recent advances in energy efficient PEO processing of aluminium alloys" (2017) Transactions of Nonferrous Metals Society of China (English Edition), 27 (7), pp. 1439-1454., 2017 Линк
2230. Y.L.Ge et al., "The improved thermal radiation property of SiC doped microarc oxidation ceramic coating formed on niobium metal for metal thermal protective system" Surface and Coatings Technology, Volume 309, 15 January 2017, Pages 880-886, 2017 Линк
670. Zdravkova, V., Drenchev, N., Ivanova, E., Mihaylov, M., Hadjiivanov, K.. Surprising Coordination Chemistry of Cu+ Cations in Zeolites: FTIR Study of Adsorption and Coadsorption of CO, NO, N2, and H2O on Cu–ZSM-5. Journal of Physical Chemistry C, 119, 27, 2015, DOI:10.1021/acs.jpcc.5b03213, 15292-15302. ISI IF:4.772
Цитира се в:
2231. A. Kharchenko, Properties of copper species stabilized in zeolite nanocrystals, Ph. D. Thesis, University of Normandy, Caen, France, 2017 [GS], 2017 Линк
671. Panayotov, D., Ivanova, E., Mihaylov, M., Chakarova, K., Spassov, T., Hadjiivanov, K.. Hydrogen Spillover on Rh/TiO2: FTIR Study of Donated Electrons, Coadsorbed CO and H/D Exchange. Physical Chemistry Chemical Physics, 17, 2015, DOI:10.1039/C5CP03148F, 20563-20573. ISI IF:4.493
Цитира се в:
2232. N. Yang , S. F. Bent, "Investigation of inherent differences between oxide supports in heterogeneous catalysis in the absence of structural variations", Journal of Catalysis, 351 (2017) 49-58., 2017 Линк
2233. Y. Cheng, S. Lu, F. Liao, L. Liu, Y. Li and M. Shao, "Rh[BOND]MoS2 Nanocomposite Catalysts with Pt-Like Activity for Hydrogen Evolution Reaction", Adv. Funct. Mater., 27 (2017) 1700359 [ISI]., 2017 Линк
672. Georgieva, I., Aquino, A. J. A., Plasser, F., Trendafilova, N., Köhn, A., Lischka, H.. Intramolecular Charge-Transfer Excited-State Processes in 4-(N,N-Dimethylamino)benzonitrile: The Role of Twisting and the πσ* State. Journal of Physical Chemsitry A, 119, 24, American Chemical Society, 2015, 6232-6243. ISI IF:2.883
Цитира се в:
2234. Suda K. and Yokogawa, D., Theoretical Study on Nonradiative Decay of Dimethylaminobenzonitrile through Triplet State in Gas-Phase, Nonpolar, and Polar
page 215/232
Solutions, J. Phys. Chem. B, 2017, 121 (9), pp 2164–2170, DOI: 10.1021/acs.jpcb.6b11654, 2017 Линк
2235. Trommer, Florian, Twisted Intramolecular Charge-Transfer in den Modellsystemen 4-(Diisopropylamino)benzonitril und einem neuartigen Hemithioindigoderivat. Dissertation, LMU München: Faculty of Physics, 2017 Линк
2236. Mariz, I.F., Pinto, S., Lavrado, J., Paulo, A., Martinho, J.M. and Maçôas, E.M., Cryptolepine and quindoline: understanding their photophysics. (2017) Physical Chemistry Chemical Physics, 19(16), pp.10255-10263, 2017 Линк
2237. Kim, J.Y., Hwang, T.G., Kim, S.H., (...), Lee, W., Kim, J.P., Synthesis of high-soluble and non-fluorescent perylene derivatives and their effect on the contrast ratio of LCD color filters, Dyes and Pigments 2017 136, pp. 836-845., 2017 Линк
2238. Zachariasse, K.A., Demeter, A. and Druzhinin, S.I., (2017) Absence of Intramolecular Charge Transfer with 4-Fluoro-N, N-dimethylaniline (DMA4F), Contrary to an Experimental Report Supported by Computations. The Journal of Physical Chemistry A, 121(6), pp.1223-1232., 2017 Линк
2239. Medders, G.R., Alguire, E.C., Jain, A. and Subotnik, J.E., (2017) Ultrafast Electronic Relaxation through a Conical Intersection: Nonadiabatic Dynamics Disentangled through an Oscillator Strength-Based Diabatization Framework. The Journal of Physical Chemistry A, 121(7), pp.1425-1434., 2017 Линк
2240. Mewes, J.M., Herbert, J.M. and Dreuw, A., (2017) On the accuracy of the general, state-specific polarizable-continuum model for the description of correlated ground-and excited states in solution. Physical Chemistry Chemical Physics, 19(2), pp.1644-1654., 2017 Линк
2241. Curchod, B.F., Sisto, A. and Martínez, T.J. (2017) Ab Initio Multiple Spawning Photochemical Dynamics of DMABN Using GPUs. The Journal of Physical Chemistry A.121 (1), pp 265–276., 2017 Линк
2242. Bohnwagner M. V., Dreuw, A. Regular Fluorescence of 4-Fluoro-N, N-dimethylaniline: No Charge Transfer and No Twisting, J. Phys. Chem. A, 2017, 121 (31), pp 5834–5841, DOI: 10.1021/acs.jpca.7b05939., 2017 Линк
673. Mujahid, M., Folytn-Arfa Kia, A., Duff, B., Egan, D. A., Devereux, M., McClean, S., Walsh, M., Georgieva, I., Trendafilova, N., Creaven, B. S.. Spectroscopic studies, DFT calculations and cytotoxic activity of novel silver(I) complexes of hydroxy ortho-substituted-nitro-2H-chromen-2-one ligands and a phenanthroline adduct. Journal of Inorganic Biochemistry, 153, Elsevier, 2015, 103-113. ISI IF:3.205
Цитира се в:
2243. Akkoç, S., Kayser, V., İlhan, İ.Ö., Hibbs, D.E., Gök, Y., Williams, P.A., Hawkins, B. and Lai, F., New compounds based on a benzimidazole nucleus: synthesis, characterization and cytotoxic activity against breast and colon cancer cell lines. (2017) Journal of Organometallic Chemistry 839(15) 98-107., 2017 Линк
2244. Cardoso, J. M. S., Guerreiro, S. I., Lourenço, A., Alves, M. M., Montemor, M. F., Mira, N. P., Leitão, J. H., Fernanda M., Carvalho, N. N., Ag(I) camphorimine complexes with antimicrobial activity towards clinically important bacteria and species of the Candida genus, (on line) (2017) PLoS ONE 12(5): e0177355., 2017 Линк
674. Uzunova, E., Seriani, N., Mikosch, H.. CO2 Conversion to Methanol on Cu(I) Oxide Nanolayers and Clusters: Electronic Structure Insight into the Reaction Mechanism. Physical Chemistry Chemical Physics, 17, 2, Royal Society of Chemistry, 2015, ISSN:1463-9076, DOI:http://dx.doi.org/10.1039/C5CP01267H, 11088-11094. ISI IF:4.493
Цитира се в:
2245. Sijie Guo, Siqi Zhao, Jin Gao, Cheng Zhu, Xiuqin Wu, Yijun Fu, Hui Huang, Yang Liu and
page 216/232
Zhenhui Kang Cu-CDots nanocorals as electrocatalyst for highly efficient CO2reduction to formate Nanoscale, 2017, 9, 298, 2017
2246. Satish Kumar Iyemperumal and N. Aaron Deskins Activation of CO2 by supported Cu clusters Phys. Chem. Chem. Phys., 2017, 19, 28788, 2017
2247. Liying Wang, Kalyani Gupta, Josephine B. M. Goodall, Jawwad A. Darr and Katherine B. Holt In situ spectroscopic monitoring of CO2 reduction at copper oxide electrode Faraday Discuss., 2017, 197, 517, 2017
2248. Fengling Zhou, Haitao Li, Maxime Fournier and Douglas R. MacFarlane Electrocatalytic CO2Reduction to Formate at Low Overpotentials on Electrodeposited Pd Films: Stabilized Performance by Suppression of CO Formation ChemSusChem, 2017, 10, 1509, 2017
2249. Yi-Ming Liu, Jiang-Tao Liu, Shi-Zhong Liu, Jing Li, Zhi-Hua Gao, Zhi-Jun Zuo and Wei Huang Reaction mechanisms of methanol synthesis from CO/CO 2 hydrogenation on Cu 2 O(111): Comparison with Cu(111) Journal of CO2 Utilization, 2017, 20, 59, 2017
2250. Tianming Li, Mou He and Wen Zeng Polyhedral Cu 2 O crystal: Morphology evolution from meshed nanocube to solid and gas-sensing performance Journal of Alloys and Compounds, 2017, 712, 50, 2017
675. Nazarova, E., Balchev, N., Nenkov, K., Buchkov, K., Kovacheva, D., Zahariev, A., Fuchs, G.. Improvement of the superconducting properties of polycrystalline FeSe by silver addition. Superconductor Science and Technology, 28, 12, Institute of Physics Publishing, 2015, ISSN:09532048, DOI:10.1088/0953-2048/28/12/125013, SJR:1.088, ISI IF:2.325
Цитира се в:
2251. Zhang, Shengnan, et al. "Influences of Ag doping on the high energy ball milling aided sintering FeSe superconductors." Journal of Materials Science: Materials in Electronics (2017): 1-7., 2017 Линк
2252. Grivel, J-C. "A simple method for preparing superconducting FeSe pellets without sealing in evacuated silica tubes." Ceramics International, Volume 43, Issue 14 (2017): 11474-11480., 2017 Линк
2253. Zignani, Chiarasole Fiamozzi, et al. "Fabrication and Physical Properties of Polycrystalline Iron-Chalcogenides Superconductors." IEEE Transactions on Applied Superconductivity 27.4 (2017): 1-5., 2017 Линк
2254. Fiamozzi Zignani, C., De Marzi, G., Grimaldi, G., Leo, A., Guarino, A., Vannozzi, A., Della Corte, A., Pace, S. Fabrication and Physical Properties of Polycrystalline Iron-Chalcogenides Superconductors (2017) IEEE Transactions on Applied Superconductivity, 27 (4), art. no. 7807227, ., 2017 Линк
676. Gonzalez, J. R., Zhecheva, E., Stoyanova, R., Nihtianova, D., Markov, P., Ravelle-Chapius, R., Alcantara, R., Naciemento, F., Tirado, J. L., Ortiz, G. F.. A fractal-like electrode based on double-wall nanotubes of anatase exhibiting improved electrochemical behaviour in both lithium and sodium batteries. Physical Chemistry Chemical Physics, 17, Royal Society Publishing, 2015, ISSN:1463-9076, 4687-4695. ISI IF:4.493
Цитира се в:
2255. Ali, G., Badshah, A., Chung, K. Y., Nam, K. W., Jawad, M., Arshad, M., & Abbas, S. M. (2017). Superior shuttling of lithium and sodium ions in manganese-doped titania functionalized multiwall carbon nanotube anodes. Nanoscale, 9(28), 9859., 2017 Линк
2256. Park, H., Kwon, J., Choi, H., Song, T., & Paik, U. (2017). Microstructural control of new intercalation layered titanoniobates with large and reversible d-spacing for easy Na+ ion uptake. Science Advances, 3(10), e1700509., 2017 Линк
2257. ur Rehman, A., Ali, G., Badshah, A., Chung, K. Y., Nam, K. W., Jawad, M., ... & Abbas, S. M.
page 217/232
(2017). Superior shuttling of lithium and sodium ions in manganese-doped titania functionalized multiwall carbon nanotubes anode. Nanoscale, Nanoscale, 2017, 9, 9859-9871., 2017 Линк
2258. Oh, S.M., Kim, I.Y., Patil, S.B., Park, B., Mee Lee, J., Adpakpang, K., Chae, S.A., Han, O.H., Hwang, S.-J. Improvement of Na Ion Electrode Activity of Metal Oxide via Composite Formation with Metal Sulfide, ACS Appl. Mater. Interfaces, 2017, 9 (3), pp 2249–2260., 2017 Линк
677. Tsoncheva, T., Genova, I., Paneva, D., Dimitrov, M., Tsyntsarski, B., Velinov, N., Ivanova, R., Issa, G., Kovacheva, D., Budinova, T., Mitov, I., Petrov, N.. Cobalt- and iron-based nanoparticles hosted in SBA-15 mesoporous silica and activated carbon from biomass: Effect of modification procedure. Solid State Sciences, 48, Elsevier Masson SAS, 2015, ISSN:12932558, DOI:10.1016/j.solidstatesciences.2015.09.001, 286-293. SJR:0.639, ISI IF:1.839
Цитира се в:
2259. Li, Kunquan, et al. "Controllable Fe introduction into ordered mesoporous carbon with interconnected small pores for investigating Fe doping effect on hydrogen adsorption." International Journal of Hydrogen Energy 42.8 (2017): 4733-4740., 2017 Линк
2260. Usman, Ahmed Rufa'I. Studies of charged-particle-induced residual radionuclides production cross-sections using AVF cyclotron for medical applications. Diss. University of Malaya, 2017., 2017 Линк
2261. Xie, D., Li, X., Li, F., Liang, W. Preparation of electro-catalytic particle electrodes coated by CoO and its performance on humic acid degradation (2017) Chinese Journal of Environmental Engineering, 11 (8), pp. 4497-4505., 2017 Линк
2262. Franken, Tanja, Marcel Liauw, and Regina Palkovits. Untersuchung und Optimierung cobaltit-basierter Spinellkatalysatoren für die Zersetzung von N $ _ {2} $ O aus Abgasströmen der HNO $ _ {3} $-Synthese. No. RWTH-2017-00619. Fachgruppe Chemie, 2017., 2017 Линк
678. Marinova, D., Kostov, V., Nikolova, R., Kukeva, R., Zhecheva, E., Sendova-Vasileva, M., Stoyanova, R.. From kroehnkite-to-alluadite-type of structure: novel method of synthesis of sodium manganese sulfates with electrochemical properties in alkaline ion batteries. Journal of Materials Chemistry A, 3, Royal Society of Chemistry, 2015, ISSN:2050-7526, DOI:10.1039/C5TA07204B, 22287-22299. SJR:2.15, ISI IF:7.443
Цитира се в:
2263. Guo, S.-P., Li, J.-C., Xu, Q.-T., Ma, Z., Xue, H.-G., Recent achievements on polyanion-type compounds for sodium-ion batteries: Syntheses, crystal chemistry and electrochemical performance, (2017) Journal of Power Sources, 361, pp. 285-299, 2017
2264. Shishkin, M., & Sato, H. " Ab Initio Study of Stability of Na2Fe2 (SO4) 3, a High Potential Na-Ion Battery Cathode Material." The Journal of Physical Chemistry C, 121(37), 20067-20074, 2017, 2017 Линк
2265. Solodovnikov, S. F., et all "Nonstoichiometry in the Systems Na2MoO4–MMoO4(M = Co, Cd), Crystal Structures of Na3.36Co1.32(MoO4)3, Na3.13Mn1.43(MoO4)3 and Na3.72Cd1.14(MoO4)3, Crystal Chemistry, Compositions and Ionic Conductivity of Alluaudite-type Double Molybdates and Tungstates." J. of Solid State Chem., 253, pp. 121-128., 2017, 2017 Линк
2266. Таня Йорданова Бояджиева, Метални фосфати като електродни материали в алкални йонни батерии, Докторска дисертация 2017, лит. 55., 2017 Линк
2267. Мария Лазарова Калъпсъзова, „Натриеви интеркалационни оксиди като катодни материали за екологични йонни батерии”, Докторска дисертация, 2017, Българска академия на науките, София (лит. 131)., 2017
page 218/232
2268. Zhao, Ch., et all " Novel Methods for Sodium-Ion Battery Materials". Small methods, 1600063, 2017, 2017 Линк
2269. Gao, J., et all "Na2.67Mn1.67(MoO4)3:A 3.45V Alluaudite-Type Cathode Candidate for Sodium-Ion Batteries". Chemistry of Materials, 29(3), 940-944. 2017, 2017 Линк
2016
679. Tepavitcharova, S, Havlícek D., Matulkova I., Rabadjieva, D, Gergulova, R, Plocek J., Nemec I., Císarova I.. New zinc-glycine-iodide complexes as a product of equilibrium and non-equilibrium crystallization in the Gly - ZnI2 - H2O system. Journal of Molecular Structure, 1120, Elsevier, 2016, ISSN:0022-2860, DOI:http://dx.doi.org/10.1016/j.molstruc.2016.05.005, 42-49. SJR:0.463, ISI IF:1.78
Цитира се в:
2270. W.H. Mahmoud, N.F. Mahmoud, Gehad G. Mohamed, Synthesis, physicochemical characterization, geometric structure and molecular docking of new biologically active ferrocene based Schiff base ligand with transition metal ions, Applied Organometallic Chemistry, DOI: 10.1002/aoc.3858 2017, 2017 Линк
680. Tzaneva, B.R., Naydenov, A., Todorova, S.Zh., Videkov, V.H., Milusheva, V.S., Stefanov, P.K.. Cobalt electrodeposition in nanoporous anodic aluminium oxide for application as catalyst for methane combustion. Electrochimica Acta, 191, Elsevier, 2016, ISSN:00134686, DOI:10.1016/j.electacta.2016.01.063, 192-199. SJR:1.391, ISI IF:4.504
Цитира се в:
2271. Jingjia Li, Ruisheng Hu, Junge Zhang, Wanwan Meng, Yanfei Du, Yunfei Si, Zhe Zhang, Influence of preparation methods of La2CoMnO6/CeO2 on the methane catalytic combustion, Fuel, Volume 178, 15 August 2016, Pages 148-154, 2017 Линк
2272. Alexey A.Noyan, Alexey P.Leontiev, Maxim V.YakovlevbIly, V.Roslyakov, Galina A.Tsirlina, Kirill S.Napolskii, Electrochemical growth of nanowires in anodic alumina templates: the role of pore branching, Electrochimica Acta, Volume 226, 1 February 2017, Pages 60-68, 2017 Линк
2273. O. Araoyinbo, Alaba; Iskandar Azmi, Azwan; Mohd Ruzaidi Ghazali, Che; Rahmat, Azmi; Hussin, Kamarudin; Mustafa Albakri Abdullah, Mohd, Nanoporous Alumina Fabrication: A Short Review, Nanoscience & Nanotechnology-Asia, Volume 7, Number 2, August 2017, pp. 183-199(17), 2017 Линк
2274. Bingsuo Pan, Yang Yang, Yiyuan Zhang, Qingxiao Zhang, Effects of saccharin and tetramethylammonium bromide on the microstructure and microhardness of thick cobalt electrodeposits, Surface and Coatings Technology Volume 329, 25 November 2017, Pages 49-54, 2017 Линк
2275. M.Palomar-Pardavé, J.Aldana-Gonzáleza, L.E.Botello, E.M.Arce-Estrad, M.T.Ramírez-Silva, J.Mostanyd M.Romero-Romo , Influence of temperature on the thermodynamics and kinetics of cobalt electrochemical nucleation and growth, Electrochimica Acta, Volume 241, 1 July 2017, Pages 162-169, 2017 Линк
2276. MG Shopska, DG Paneva, HG Kolev, G. Kadinov, R. Ilieva, M Iliev, ZP.Cherkezova-Zheleva, I. G. Mitov, Bioinspired Synthesis of Lepidocrocite-Containing Material and Its Catalytic Behaviour in CO Oxidation, Helvetica, Helv. Chim. Acta, (2017) 100, e1700172., 2017 Линк
2277. Jijie Huang, Leigang Li, Ping Lu, Zhimin Qi, Xing Sun, Xinghang Zhang and Haiyan Wang, Self-assembled Co–BaZrO3 nanocomposite thin films with ultra-fine vertically aligned Co nanopillars, Nanoscale, 2017, 9, 7970-7976, 2017 Линк
2278. A.A.El-Zoka, B.Langelier, G.A.Botton, R.C.Newman, Enhanced analysis of nanoporous gold by atom probe tomography, Materials Characterization, Volume 128, June 2017, Pages
page 219/232
269-277, 2017 Линк
681. Mihaylov, M., Chakarova, K., Andonova, S., Drenchev, N., Ivanova, E., Sabetghadam, A., Seoane, B., Gascon, J., Kapteijn, F., Hadjiivanov, K.. Adsorption Forms of CO2 on MIL-53(Al) and NH2-MIL-53(Al) As Revealed by FTIR Spectroscopy. J. Phys. Chem. C, 120, 41, 2016, DOI:10.1021/acs.jpcc.6b07492, 23584-23595. ISI IF:4.509
Цитира се в:
2279. Q. Mortier, Systematic development of force fields to describe gas adsorption in nanoporous materials, Ms. Thesis, Ghent University, 2017, 2017 Линк
2280. B. Ding, Y. Cheng, J. Wu, X. M. Wu, H. M. Zhang, Y. Luo, X. F. Shi, X. X. Wu, J. Z. Huo, Y. Y. Liu, Y. Li, "A unique multifunctional cluster-based nano-porous Terbium organic material: Real-time detection of benzaldehyde, visually luminescent sensor for nitrite and selective high capacity capture of Congo Red", Dyes and Pigments, 146, 2017, 455-466., 2017 Линк
682. Drenchev, N., Mihaylov, M., Dietzel, Pascal D. C., Albinati, Alberto, Georgiev, Peter A, Hadjiivanov, К.. Low-Temperature Adsorption of H2 and D2 on Dehydrated and Water Precovered CPO-27-Ni. J. Phys. Chem. C, 120, 40, 2016, DOI:10.1021/acs.jpcc.6b08722, 23083-2309. ISI IF:4.509
Цитира се в:
2281. S. M. J. Rogge, A. Bavykina, J. Hajek, H. Garcia, A.I. Olivos-Suarez, A. Sepulveda-Escribano, A. Vimont, G. Clet, P. Bazin, F. Kapteijn, M. Daturi, E.V. Ramos-Fernandez, F.X. Llabres i Xamena, V. Van Speybroeck and J. Gascon, "Metal–organic and covalent organic frameworks as single-site catalysts", Chem. Soc. Rev., 46 (2017), 3134, , 2017 Линк
683. Mihaylov, M., Chakarova, K., Andonova, S., Drenchev, N., Ivanova, E., Pidko, E.A., Sabetghadam, A., Seoane, B., Gascon, J., Kapteijn, F., Hadjiivanov, K.. Adsorption of CO2 on MIL-53(Al): FTIR evidence of the formation of dimeric CO2 species. Chem. Commun., 52, 2016, DOI:10.1039/C5CC08677A, 1494-1497. ISI IF:6.567
Цитира се в:
2282. H. Weng and B. Yan, "A Eu(III) doped metal-organic framework conjugated with fluorescein-labeled single-stranded DNA for detection of Cu(II) and sulfide" Anal. Chim. Acta, 988 (2017) 89 [ISI]., 2017 Линк
2283. M. Benzaqui, “Synthesis of Metal-Organic Framework nanoparticles and mixed-matrix membrane preparation for gas separation and CO2 capture”, Ph. D. Thesis, l’Université Versailles, Saint-Quentin en Yvelines, France, 2017., 2017
2284. C. Le Guillouzer, " Etude spectroscopique de membranes à matrice mixte polymère/MOF pour la séparation CO2/N2", Ph. D. Thesis, Normandie Universite, Caen, France, 2017., 2017 Линк
684. Aleksandrov, H.A., Neyman, K.M., HADJIIVANOV, K., Vayssilov, G.N.. Can the State of Platinum Species be Unambiguously Determined by the Stretching Frequency of an Adsorbed CO Probe Molecule?. Phys. Chem. Chem. Phys., 18, 2016, DOI:10.1039/C6CP03988J, 22108-22121. ISI IF:4.449
Цитира се в:
2285. J. Liu, Catalysis by Supported Single Metal Atoms, ACS Catal., 7 (2017) 34-59., 2017 Линк
2286. C. Wang, X.-K. Gu, H. Yan, Y. Lin, J. Li, D. Liu, W.-X. Li and J. Lu, Water-Mediated Mars–Van Krevelen Mechanism for CO Oxidation on Ceria-Supported Single-Atom Pt1 Catalyst, ACS Catal., 7(2017) 887–891, 2017 Линк
2287. G.S. Parkinson, Unravelling Single Atom Catalysis: The Surface Science Approach, Cond. Matter Mater. Sci., arXiv:1706.09473 (2017) [Google]., 2017 Линк
page 220/232
2288. R.M. Kennedy, Support and Overcoating Effects on Selective Catalysis of Platinum Nanoparticle Model Catalysts, Ph. D. Thesis, Northwestern University, Evanston, USA, 2017 [GS]., 2017 Линк
2289. G.S. Parkinson, Unravelling single atom catalysis:The surface science approach, Chin. J. Catal., 38 (2017) 1454 [ISI]., 2017 Линк
2290. C. Lentz, S.P. Jand, J. Melke, C. Roth and P. Kaghazchi, DRIFTS study of CO adsorption on Pt nanoparticles supported by DFT calculations, J. Mol. Catal. A, 426 (2017) 1, 2017 Линк
2291. L. DeRita, S. Dai, K. Lopez-Zepeda, N. Pham, G.W. Graham, X. Pan and P. Christopher, Catalyst Architecture for Stable Single Atom Dispersion Enables Site-Specific Spectroscopic and Reactivity Measurements of CO Adsorbed to Pt Atoms, Oxidized Pt Clusters, and Metallic Pt Clusters on TiO2, J. Am. Chem. Soc., 139 (2017) 14150 [ISI]., 2017 Линк
2292. X. Wang, J.A. van Bokhoven and D. Palagin, Ostwald ripening versus single atom trapping: towards understanding platinum particle sintering, Phys. Chem. Chem. Phys., 19 (2017) 30513-30519, 2017 Линк
685. Dikovska, A. Og. , Atanasova, G. B., Avdeev, G. V., Nedyalkov, N. N.. Synthesis and characterization of ZnO nanostructures on noble-metal coated substrates. Applied Surface Science, 374, Elsevier, 2016, ISSN:01694332, DOI:http://dx.doi.org/10.1016/j.apsusc.2015.09.141, 65-70. SJR:0.913, ISI IF:2.711
Цитира се в:
2293. Jin, C., Peterson, G., Zhu, K., (...), Wei, Y., Ge, C., One-step synthesis and scale-dependent luminescence properties of 1D Zn0.9Cd0.1S nanostructures prepared by PVD, 2017 Journal of Physics D: Applied Physics, 50 (12), 125301, 2017
2294. Hong, K.-S., Kim, J.W., Bae, J.-S., (...), Ha, M.G., Kim, J.-P. Structure, chemical bonding states, and optical properties of the hetero-structured ZnO/CuO prepared by using the hydrothermal and the electrospinning methods, 2017 Physica B: Condensed Matter 504, pp. 103-108, 2017 Линк
686. Uzynova, G., Nikolova, Kr., Perifanova, M., Gentscheva, G., Marudova, M., Antova, G. Physicochemical characterization of chia (Salvia hispanica) seed oil from Argentina. Bulgarian chemical communications, 48, Special Issue G, 2016, ISSN:0861-9808, 131-135. ISI IF:0.229
Цитира се в:
2295. Rosas-Mendoza M. E., J. Coria-Hernández, R. Meléndez-Pérez, J. L. Arjona-Román (2017) Characteristics of Chia (Salvia hispanica L.) Seed Oil Extracted by Ultrasound Assistance, J.Med.Chem.Soc., 61, (4)., 2017 Линк
687. Piperov, N.P., Ivanova, L.P., Aleksandrova, A.N.. A reappraisal of decrepitation-inductively coupled plasma spectroscopy (D-ICP) for the bulk analysis of fluid inclusions in minerals. Analytical Methods, 8, Royal Society of Chemistry, 2016, ISSN:ISSN 0003-2654, DOI:DOI: 10.1039/c5ay01936b, 3183-3195. ISI IF:1.915
Цитира се в:
2296. Lin, M., Pei, Z.-Y., Liu, Y.-Y., Xia, Z.-J., Xiong, K., Lei, S.-M., Wang, E.-W., "High-efficiency trace Na extraction from crystal quartz ore used for fused silica — A pretreatment technology". International Journal of Minerals, Metallurgy and Materials, 24 (10), 2017., 2017
688. Lukasz Kubiak, Lidia Castoldi, Luca Lietti, Stanislava Andonova, Louise Olsson. Mechanistic Investigation of the Reduction of NOx over Pt- and Rh-Based LNT Catalysts. Catalysts, 6, 3, 2016, DOI:10.3390/catal6030046, 46. ISI IF:3.082
Цитира се в:
page 221/232
2297. Jinxin Zhu, et al., “Controlling N2O formation in regeneration of NOx storage and reduction catalysts: From impact of platinum-group metal type to rational utilization” Physical Chemistry Chemical Physics 19(48) (2017) 32361-32372, 2017 Линк
689. Stanislava Andonova, StefanieTamm, CliffordMontreuil, ChristineLambert, LouiseOlsson. The effect of iron loading and hydrothermal aging on one-pot synthesized Fe/SAPO-34 for ammonia SCR. Applied Catalysis B: Environmental, 180, 2016, DOI:10.1016/j.apcatb.2015.07.007, 775-787. ISI IF:9.446
Цитира се в:
2298. J. Liu, et al., "Design of MoFe/BetaCeO2 catalysts with a core−shell structure and their catalytic performances for the selective catalytic reduction of NO with NH3" Applied Catalysis B: Environmental, 203 (2017) 704-714., 2017 Линк
2299. Ch. Yu, et al., "Effect of Pr/Ce addition on the catalytic performance and SO2 resistance of highly dispersed MnOx/SAPO-34 catalyst for NH3-SCR at low temperature" Chemical Engineering Journal, 316 (2017) 1059-1068., 2017 Линк
2300. L. Zhang, et al., "Enhanced formation of 5-HMF from glucose using a highly selective and stable SAPO-34 catalyst" Chemical Engineering Journal, 307 (2017) 877-883., 2017 Линк
2301. A. Turrina, et al., "Synthesis and activation for catalysis of Fe-SAPO-34 prepared using iron polyamine complexes as structure directing agents" Catal. Sci. Technol., 7 (2017) 4366-4374., 2017 Линк
2302. H. Zhao, et al., "The promotion effect of Fe to Cu-SAPO-34 for selective catalytic reduction of NOx with NH3" Catalysis Today, 297 (2017) 84-91., 2017 Линк
2303. C. Yu, et al., "Manganese-rich MnSAPO-34 molecular sieves as an efficient catalyst for the selective catalytic reduction of NOx with NH3: one-pot synthesis, catalytic performance, and characterization" Environ Sci Pollut Res 24 (2017) 7499., 2017 Линк
2304. R. Li, et al., "Synthesis of MnNi–SAPO-34 by a one-pot hydrothermal method and its excellent performance for the selective catalytic reduction of NO by NH3" Catal. Sci. Technol., 7 (2017) 4984-4995., 2017 Линк
2305. J. Liu, et al., "Fe-BetaCeO2 core-shell catalyst with tunable shell thickness for selective catalytic reduction of NOx with NH3" AIChE J 63(10) (2017) 4430–4441., 2017 Линк
690. Stojadinović, S., Radić, N., Grbić, B., Maletić, S., Stefanov, P., Pačevski, A., Vasilić, R.. Structural, photoluminescent and photocatalytic properties of TiO2:Eu3+ coatings formed by plasma electrolytic oxidation. Applied Surface Science, 370, Elsevier, 2016, ISSN:01694332, DOI:10.1016/j.apsusc.2016.02.131, 218-228. SJR:0.93, ISI IF:3.38
Цитира се в:
2306. Lu, D., Yang, M., Fang, P., Li, C., Jiang, L. Enhanced photocatalytic degradation of aqueous phenol and Cr(VI) over visible-light-driven TbxOyloaded TiO2-oriented nanosheets (2017) Applied Surface Science, 399, pp. 167-184., 2017 Линк
2307. Park, J.Y., Yang, H.K. Novel red-emitting Y4Zr3O12:Eu3+ nanophosphor for latent fingerprint technology (2017) Dyes and Pigments, 141, pp. 348-355., 2017 Линк
2308. Zhang, Y., Fan, W., Du, H.Q., Zhao, Y.W. Study on photocatalytic performance of TiO2 and Fe3+/TiO2 coatings (2017) Surface Engineering, 33 (11), pp. 849-856, 2017 Линк
691. Stojadinović, S., Vasilić, R., Radić, N., Tadić, N., Stefanov, P., Grbić, B.. The formation of tungsten doped Al2O3/ZnO coatings on aluminum by plasma electrolytic oxidation and their application in photocatalysis. Applied Surface Science, 377, Elsevier, 2016, ISSN:01694332, DOI:10.1016/j.apsusc.2016.03.104, 37-43. SJR:0.93, ISI IF:3.38
Цитира се в:
page 222/232
2309. Chen, Y., Yang, X.-Y., Zhang, P., Liu, D.-S., Gui, J.-Z., Peng, H.-L., Liu, D. Noble metal-supported rod-like ZnO photocatalysts with enhanced photocatalytic performance (2017) Wuli Huaxue Xuebao/ Acta Physico - Chimica Sinica, 33 (10), pp. 2082-2091, 2017 Линк
2310. Lei, C., Pi, M., Xu, D., Jiang, C., Cheng, B. Fabrication of hierarchical porous ZnO-Al2O3 microspheres with enhanced adsorption performance (2017) Applied Surface Science, 426, pp. 360-368, 2017 Линк
692. Mujahid, M., Trendafilova, N., Foltyn-Kia, A., Rosair, G., Kavanagh, K., Walsh, M., McClean, S., Creaven, B. S., Georgieva, I.. Novel Silver(I) Complexes of Coumarin Oxyacetate Ligands and their Phenanthroline Adducts: Antimicrobial Activity, Structural and Spectroscopic Characterisation. Journal of Inorganic Biochemistry, 163, Elsevier, 2016, ISSN:01620134, DOI:10.1016/j.jinorgbio.2016.07.010, 53-67. ISI IF:3.205
Цитира се в:
2311. Cardoso, J.M.S., Guerreiro, S.I., Lourenço, A., Alves, M.M., Montemor, M.F, Mira, N.P., Leitão, J.H., Carvalho, M.F.N.N. , Ag(I) camphorimine complexes with antimicrobial activity towards clinically important bacteria and species of the Candida genus, PLoSONE, 12(5) e0177355, 2017., 2017 Линк
693. Panayotov, D., McEntee, M., Burrows, S., Driscoll, D., Tang, W., Neurock, M., Morris, J.. Infrared studies of propene and propene oxide adsorption on nanoparticulate Au/TiO2. Surface Science, 652, Elsevier B.V., 2016, ISSN:0039-6028, DOI:http://dx.doi.org/10.1016/j.susc.2016.03.033, 172-182. SJR:0.792, ISI IF:1.931
Цитира се в:
2312. Zhu, Y.; An, Z.; Song, H.; Xiang, X.; Yan, W.; He, J., "Lattice-Confined Sn (IV/II) Stabilizing Raft-Like Pt Clusters: High Selectivity and Durability in Propane Dehydrogenation". ACS Catalysis 2017, 7 (10), 6973-6978; DOI: 10.1021/acscatal.7b02264, 2017 Линк
694. Panayotov, D., Morris, J.. Surface chemistry of Au/TiO2: Thermally and photolytically activated reactions. Surface Science Reports, 71, Elsevier B.V., 2016, ISSN:0167-5729, DOI:http://dx.doi.org/10.1016/j.surfrep.2016.01.002, 77-271. SJR:4.417, ISI IF:5.95
Цитира се в:
2313. Jiang, Z.-Y.; Zhao, Z.-Y., "Density functional theory study on the metal-support interaction between a Au9 cluster and an anatase TiO2(001) surface". Physical Chemistry Chemical Physics 2017, 19 (33), 22069-22077; DOI: 10.1039/C7CP03796A, 2017 Линк
2314. Wang, Y.; Widmann, D.; Behm, R. J., "Influence of TiO2 Bulk Defects on CO Adsorption and CO Oxidation on Au/TiO2: Electronic Metal–Support Interactions (EMSIs) in Supported Au Catalysts". ACS Catalysis 2017, 7 (4), 2339-2345; DOI: 10.1021/acscatal.7b00251, 2017 Линк
2315. Cornejo-Romero, J.; Solis-Garcia, A.; Vega-Diaz, S. M.; Fierro-Gonzalez, J. C., "Reverse hydrogen spillover during ethanol dehydrogenation on TiO2-supported gold catalysts". Molecular Catalysis 2017, 433 (Supplement C), 391-402; DOI: 10.1016/j.mcat.2017.02.041, 2017 Линк
2316. Naboulsi, I.; Lebeau, B.; Michelin, L.; Carteret, C.; Vidal, L.; Bonne, M.; Blin, J.-L., "Insights into the Formation and Properties of Templated Dual Mesoporous Titania with Enhanced Photocatalytic Activity". ACS Applied Materials & Interfaces 2017, 9 (3), 3113-3122; DOI: 10.1021/acsami.6b13269, 2017 Линк
2317. Boyle, D. T.; Wilke, J. A.; Palomino, R. M.; Lam, V. H.; Schlosser, D. A.; Andahazy, W. J.; Stopak, C. Z.; Stacchiola, D. J.; Rodriguez, J. A.; Baber, A. E., "Elucidation of Active Sites for the Reaction of Ethanol on TiO2/Au(111)". The Journal of Physical Chemistry C 2017, 121 (14), 7794-7802; DOI: 10.1021/acs.jpcc.6b11764, 2017 Линк
page 223/232
2318. Naya, S.-i.; Hayashido, Y.; Akashi, R.; Kitazono, K.; Soejima, T.; Fujishima, M.; Kobayashi, H.; Tada, H., "Solid-Phase Photochemical Growth of Composition-Variable Au–Ag Alloy Nanoparticles in AgBr Crystal. The Journal of Physical Chemistry C 2017, 121 (38), 20763-20768; DOI: 10.1021/acs.jpcc.7b04531, 2017 Линк
2319. Tang, S.; Sun, J.; Hong, H.; Liu, Q., "Solar fuel from photo-thermal catalytic reactions with spectrum-selectivity: A review". Frontiers in Energy 11(4) 2017 437–451.; DOI: 10.1007/s11708-017-0509-z, 2017 Линк
2320. Akita, A.; Fujiwara, K.; Fujishima, M.; Tada, H., "A dry process for forming ultrathin silicon oxide film on gold nanoparticle". Applied Physics Letters 2017, 110 (14), 143108: DOI: 10.1063/1.4979803, 2017 Линк
2321. Negishi , R. et al. "Gold(Core)–Lead(Shell) Nanoparticle‐Loaded Titanium(IV) Oxide Prepared by Underpotential Photodeposition: Plasmonic Water Oxidation" Angew. Chem. 2017, 129, 10483; DOI: 10.1002/ange.201703093, 2017 Линк
2322. Mellor, A.; Humphrey, D.; Yim, C. M.; Pang, C. L.; Idriss, H.; Thornton, G., "Direct Visualization of Au Atoms Bound to TiO2(110) O-Vacancies". The Journal of Physical Chemistry C 2017, 121 (44), 24721-24725; DOI: 10.1021/acs.jpcc.7b09608, 2017 Линк
2323. Zadeh, S. H.; Rashidi-Huyeh, M.; Palpant, B., "Enhancement of the thermo-optical response of silver nanoparticles due to surface plasmon resonance". Journal of Applied Physics 2017, 122 (16), 163108; DOI:, 2017 Линк
2324. Furube, A.; Hashimoto, S., Insight into plasmonic hot-electron transfer and plasmon molecular drive: new dimensions in energy conversion and nanofabrication. Npg Asia Materials 2017, 9, e454, 2017 Линк
695. Gancheva, M., Markova-Velichkova, M., Atanasova, G., Kovacheva, D., Uzunov, I., Cukeva, R.. Design and photocatalytic activity of nanosized zinc oxides. Applied Surface Science, 368, Elsevier BV, 2016, ISSN:0169-4332, DOI:10.1016/j.apsusc.2016.01.211, 258-266. SJR:1.093, ISI IF:3.387
Цитира се в:
2325. Lu, Na, et al. "A facile fabrication of nitrogen-doped electrospun In 2 O 3 nanofibers with improved visible-light photocatalytic activity." Applied Surface Science 391 (2017): 668-676., 2017
2326. V. Pandiyarasan, S. Suhasini, J. Archana, M. Navaneethan, M. Abhijit, Y. Hayakawa, H. Ikeda, Fabrication of hierarchical ZnO nanostructures on cotton fabric for wearable device applications, Applied Surface Science, Part A, 418 (2017) 352-361, 2017
2327. Mozhgan Arabi, Seyyed Mahdy Baizaee, Alireza Bahador, Seyed Mohammad Taheri Otaqsara, Rapid, controllable, one-pot and room-temperature aqueous synthesis of ZnO:Cu nanoparticles by pulsed UV laser and its application for photocatalytic degradation of methyl orange, Luminescence , 2017, 1-17, 2017
2328. Rangel, R.; Cedeno, V.; Ramos-Corona, A.; et al., Tailoring surface and photocatalytic properties of ZnO and nitrogen-doped ZnO nanostructures using microwave-assisted facile hydrothermal synthesis, Applied Physics A-materials Science & Processing, 123(8) (2017) 552, 2017
2329. Pargoletti, E.; Mostoni, S.; Rassu, G.; et al., Zn- vs Bi-based oxides for o-toluidine photocatalytic treatment under solar light, Environmental Science and Pollution Research , 24 (9) (2017) 8287-8296, 2017
2330. D.C.S. Silva, Dissertation, Goias Federal Univ., Brazil, Síntese e caracterização de heteroestruturas de Ag2MoO4 e ZnO e investigação da sinergia nas propriedades fotocatalíticas e fotoluminescentes, (2017), 2017
2331. K. Qi, B. Cheng, J. Yu, W. Ho, Review on the improvement of the photocatalytic and antibacterial activities of ZnO, Journal of Alloys and Compounds, 727 (2017) 792-820,
page 224/232
2017
2332. PLAIAŞU, Adriana-Gabriela, and Daniela Monica IORDACHE. "MORPHOLOGICAL CHARACTERIZATION OF OXIDE NANOPOWDERS." Rev. Roum. Chim 62.10 (2017): 749-754., 2017
696. Spassova, I., Stoeva, N., Nickolov, R., Atanasova, G., Khristova, M.. Impact of carbon on the surface and activity of silica-carbon supported copper catalysts for reduction of nitrogen oxides. Applied Surface Science, 369, Elsevier, 2016, ISSN:01694332, DOI:10.1016/j.apsusc.2016.02.073, 120-129. SJR:0.93, ISI IF:3.15
Цитира се в:
2333. HE Fei, LI Ya, LUO Jin, FANG Min-Han, HE Xiao-Dong, (2017) Development of SiO2/C and SiC/C Composites Featuring Aerogel Structures, Journal of Inorganic Materials, Vol. 32 No. 5, 449-458 (ch), 2017 Линк
697. Dikovska, A. Og., Atanasova, G. B., Avdeev, G. V., Strijkova, V. Y.. Thin nanocrystalline zirconia films prepared by pulsed laser deposition. Journal of Physics: Conference Series, 700, Institute of Physics Publishing, 2016, ISSN:17426588, DOI:10.1088/1742-6596/700/1/012024, 012024. SJR:0.211
Цитира се в:
2334. Rivai, A.K., Mardiyanto, Agusutrisno, Suharyadi, E., Yttria-stabilized zirconia ceramic deposition on SS430 ferritic steel grown by PLD - Pulsed laser deposition method, 2017 Journal of Physics: Conference Series, 799 (1), 012016, 2017
698. Tzvetkova, P., Nickolov, R., Tzvetkova, Chr., Bozhkov, O., Voykova, D. Diatomite/carbon adsorbent for phenol removal. Journal of Chemical Technology and Metallurgy, 51, 2, 2016, 202-209. SJR:0.194
Цитира се в:
2335. Zineb, R., Tarbaoui, M., Ouman, M., El-Amraoui, B., Bennamara, A., Abdelmjid, A. "Development of a new adsorbent material based on marine sponges of the genius Ircina: application of the experimental design metodology sreeningg and optimization". International Journal of advanced research (IJAR), 5(7), 1061- 1069, 2017, 2017
2336. Kashi, Giti. "On the analysis of phenol removal from drinking water by batch reaction using powdered eggshell". Environmental Communication, Bios. Biotech Res. Comm. 10(2), pp. 287-296, 2017, 2017 Линк
2337. Kozhukharov, S., Samichkov, V., Girginov, Chr., Machkova, M. "Actual trends in the elaboration of advanced multifunctional coating systems for the efficient protection of lightweight alloys". Corrosion reviews, Volume 35, Issue 6, Pages 383–396, 2017, 2017
699. Ivanova, S., Zhecheva, E., Kukeva, R., Nihtianova, D., Mihaylov, L., Atanasova, G., Stoyanova, R.. Layered P3-NaxCo1/3Ni1/3Mn1/3O2 versus Spinel Li4Ti5O12 as a Positive and a Negative Electrode in a Full Sodium-Lithium Cell,. ACS Applied Materials and Interfaces, 8, 27, American Chemical Society, 2016, ISSN:19448244, DOI:10.1021/acsami.6b05075, 17321-17333. SJR:2.381, ISI IF:7.145
Цитира се в:
2338. Aragon, M. J., Lavela, P., Ortiz, G. F., Alcántara, R., & Tirado, J. L. (2017). Insight into the Electrochemical Sodium Insertion of Vanadium Superstoichiometric NASICON Phosphate. Inorganic Chemistry, 56(19), 11845-11853., 2017 Линк
2339. Wang, X.; Zhang, Y, ; Liu, C.; Yuan, Z.; Yu, X.; Zhong, Y.; Zha, Z. (2017) "Microwave-Assisted Sol-Gel Modification of Al- or C-doped Li4Ti5O12 Samples as Anode Materials for Li-ion Batteries", Int. J. Electrochem. Sci. 12, 12009-12018, 2017 Линк
700. Popova, M., Szegedi, Á., Lazarova, H., Ristić, A., Kalvachev, Y., Atanasova, G., Wilde, N., Tušar, N. N.,
page 225/232
Gläser, R.. Synthesis of biomass derived levulinate esters on novel sulfated Zr/KIL-2 composite catalysts. Microporous and Mesoporous Materials, 235, Elsevier, 2016, ISSN:13871811, DOI:10.1016/j.micromeso.2016.07.047, 50-58. SJR:1.243, ISI IF:3.349
Цитира се в:
2340. Wang, Y., Zhang, P., Huang, G., (...), Guan, Y., Wu, P., Facile Synthesis of Ethyl-4-ethoxy Pentanoate as a Novel Biofuel Additive Derived from γ-Valerolactone, ACS Sustainable Chemistry and Engineering, 5(8), pp. 6645-6653, 2017, 2017
2341. Yongming Luo, Zhanqiang Mei, Nengsheng Liu, HuaWang, Caiyun Han, Sufang He, Synthesis of mesoporous sulfated zirconia nanoparticles with high surface area and their applies for biodiesel production as effective catalysts, Catalysis Today, Volume 298, 1 December 2017, Pages 99-10, 2017
2342. Alexandre Démolis, Marion Eternot, Dr. Nadine Essayem, Dr. Franck Rataboul, New Insights into the Reactivity of Biomass with Butenes for the Synthesis of Butyl Levulinates, ChemSusChem, Volume 10, Issue 12, 2017, Pages 2612–2617, 2017
701. Vassilev, Ts., Penkov, I., Tzvetkova, Chr., Pascova, R.. Glass transition temperatures and structures of multicomponent borate glasses: Influence of modifier cation field strenghts. Journal of Non-Crystalline Solids, 438, Elsevier, 2016, ISSN:0022-3093, 1-6. SJR:0.695, ISI IF:1.825
Цитира се в:
2343. Abadi, S., Aride, J., Benkhouja K., Taibi, M. "Spectroscopic investigation and magnetic properties of Na2Pb1-xCuxP2O7 glasses", Arabian Journal of Chemistry, 2017, 2017
702. Chakarova, K., Andonova, S., Dimitrov, L., Hadjiivanov, K.. FTIR study of CO and N2 adsorption on [Ge]FAU zeolites in their Na- and H-forms. Microporous and mesoporous materials, 220, Elsevier, 2016, ISSN:1387-1811, DOI:10.1016/j.micromeso.2015.09.002, 188-197. SJR:1.156, ISI IF:3.453
Цитира се в:
2344. J.C.A. Manco, Preparation of Catalysts for Olefin Oligomerization Reaction, Ph. D. Thesis, Universidad de Antioquia, Medellín, Colombia, 2017 [GS]., 2017 Линк
2345. A. M. Hernández-Giménez, J. Ruiz-Martínez, B. Puértolas, J. Pérez-Ramírez, P. C. A. Bruijnincx, B. M. Weckhuysen, "Operando Spectroscopy of the Gas-Phase Aldol Condensation of Propanal over Solid Base Catalysts"Topics in Catalysis, 2017, 60, 19–20, 1522–1536, 2017 Линк
703. Vassileva, P., Detcheva, A., Uzunova, S., Uzunov, I., Voykova, D. Equilibrium and kinetic studies on the removal of some metal ions using biogenic amorphous silica. Separation Science and Technology, 51, 5, 2016, 797-806. SJR:0.37, ISI IF:1.106
Цитира се в:
2346. Zhang M., Song L., Jiang H. et al. "Biomass based hydrogel as an adsorbent for the fast removal of heavy metal ions from aqueous solutions". J. Mater. Chem. A, 2018, 5, 3434-3446, 2017 Линк
704. Uzunova E. L., Mikosch H.. A theoretical study of nitric oxide adsorption and dissociation on copper-exchanged zeolites SSZ-13 and SAPO-34: the impact of framework acid–base properties. Phys.Chem.Chem.Phys, 18, 2, RSC, 2016, ISSN:1463-9076, DOI:http://dx.doi.org/10.1039/c6cp01146b, 11233-11243. ISI IF:4.493
Цитира се в:
2347. Z Qu, Y Li, S Huang, P Chen, X Ma Clarification of copper species over Cu-SAPO-34 catalyst by DRIFTS and DFT study of CO adsorption Science China Chemistry, 2017 p912, 2017
page 226/232
705. Staneva D., Grabchev I., Vasileva-Tonkova E., Kukeva R., Stoyanova R.. Synthesis, characterization and in vitro antimicrobial activity of a new fluorescent tris-benzo[de]anthracen-7-one and its Cu(II) complex. Tetrahedron, 72, 19, Elsevier, 2016, ISSN:0040-4020, DOI:http://dx.doi.org/10.1016/j.tet.2016.03.069, 2440-2446. SJR:0.991, ISI IF:2.645
Цитира се в:
2348. Ali, O. A., El–Wahab, Z. H. A., & Ismail, B. A. (2017). Synthesis, structural characterization and evaluation of catalytic and antimicrobial properties of new mononuclear Ag (I), Mn (II), Cu (II) and Pt (IV) complexes. Journal of Molecular Structure, 1139, 175-195., 2017 Линк
2349. Kuang, M.-Q., Yuan, H.-K., Kuang, A.-L., (...), Wang, L.-D., Duan, S.-K. , (2017) "Study on the local structure and EPR spectroscopy of compressed CUX4(X = N, S, Cl and Br) tetrahedral cluster", Molecular Physics 115(20), 2558-2564, 2017 Линк
706. Ivanova, S., Zhecheva, E., Kukeva, R., Tyuliev, G., Nihtianova, D., Mihailov L., Stoyanova R.. Effect of Sodium Content on the Reversible Lithium Intercalation into Sodium-Deficient Cobalt–Nickel–Manganese Oxides NaxCo1/3Ni1/3Mn1/3O2 (0.38 ≤ x ≤ 0.75) with a P3 Type of Structure. The Journal of Physical Chemistry C, 120, 7, ACS Publications, 2016, DOI:10.1021/acs.jpcc.5b11910, 3654-3668. ISI IF:4.509
Цитира се в:
2350. Palanisamy, M., Kim, H. W., Heo, S., Lee, E., & Kim, Y. (2017). Insights into the Dual-electrode Characteristics of Layered Na0. 5Ni0. 25Mn0. 75O2 Materials for Sodium-Ion Batteries. ACS Applied Materials & Interfaces 9(12), 10618–10625., 2017 Линк
2351. Aragon, M. J., Lavela, P., Ortiz, G., Alcántara, R., & Tirado, J. L. (2017). Nanometric P2-Na2/3Fe1/3Mn2/3O2 with controlled morphology as cathode for sodium-ion batteries. Journal of Alloys and Compounds, 724, 465-473., 2017 Линк
2352. Manikandan, P., Heo, S., Kim, H. W., Jeong, H. Y., Lee, E., & Kim, Y. (2017). Structural characterization of layered Na0. 5Co0. 5Mn0. 5O2 material as a promising cathode for sodium-ion batteries. Journal of Power Sources, 363, 442-449., 2017 Линк
2353. Yang, J., Yuan, T., Guo, B., Dai, C., Liu, Y., Li, G., ... & Xu, M. (2017). Precise preparation of layered Na 0.5 Ni 0.25 Mn 0.75 O 2 micro-sheets for 3.8 V Na-ion batteries. Chemical Communications, 53(65), 9117-9120., 2017 Линк
2354. Tomita, Y., Kimura, N., Izumi, Y., Arai, J., Kohno, Y., & Kobayashi, K. (2017). Synthesis and electrochemical properties of 4LiF-NiMn 2 O 4 composite as a cathode material for Li-ion batteries. Journal of Power Sources, 354, 34-40., 2017 Линк
707. Uzunova E., Mikosch H.. Adsorption of phosphates and phosphoric acid in zeolite clinoptilolite: Electronic structure study. Microporous and Mesoporous Materials, 232, Elsevier, 2016, ISSN:1387-1811, DOI:http://dx.doi.org/10.1016/j.micromeso.2016.06.019, 119-125. ISI IF:3.455
Цитира се в:
2355. Mitrogiannis D., Psychoyou M., Baziotis I., Inglezakis V.J., Koukouzas N., Tsoukalas N., Palles D., Kamitsos E., Oikonomou G., Markou G. Removal of phosphate from aqueous solutions by adsorption onto Ca(OH)2 treated natural clinoptilolite Chemical Engineering Journal, Volume 320, 2017 p 510, 2017
2356. Chen X., Wang X.C., Yang S. La(III) coagulated graphene oxide for phosphate binding: mechanism and behaviour International Journal of Environmental Studies, Volume 74, 2017 p 586, 2017
2357. Manto M.J., Xie P., Keller M.A., Liano W.E., Pu T., Wang C. Recovery of Inorganic Phosphorus Using Copper-Substituted ZSM-5 ACS Sustainable Chemistry and Engineering,
page 227/232
Volume 5, 2017p 6192, 2017
708. Aslam, S., Isab, A. A., Alotaibi, M. A., Saleem, M., Monim-ul-Mehboob, M., Ahmad, S., Georgieva, I., Trendafilova, N. Synthesis, Spectroscopic Characterization, Theoretical DFT Calculations and Antimicrobial Properties of Silver(I) Complexes of 2,2’-Bipyridine and 1,10-Phenanthroline. Polyhedron, 115, Elsevier, 2016, ISSN:0277-5387, DOI:doi:10.1016/j.poly.2016.04.047, 212-218. SJR:0.509, ISI IF:2.108
Цитира се в:
2358. Regiel-Futyra, A., Dąbrowski, J. M., Mazuryk, O., Śpiewak, K., Kyzioł, A. Pucelik, B., Brindell, M., Stochel, G., Bioinorganic antimicrobial strategies in the resistance era, Coordination Chemistry Reviews, Vol. 351, 2017, pp. 76-117., 2017 Линк
2359. Khadivi, R., Pasdar, H., Foroughifar, N., Davallo, M., Synthesis and structural characterization of metal complexes derived from substituted guanidine-pyridine as potential antibacterial agents (2017) Biointerface Research in Applied Chemistry, 7 (6), pp. 2238-2242., 2017 Линк
709. Stambolova, I., Georgiev, V., Batakliev, T., Lutzkanov, L., Blaskov, V., Atanasova, G., Vassilev, S., Eliyas, A.. Synthesis and characterization of nickel and silver-loaded activated carbon catalysts for ozone decomposition. Journal of Chemical Technology and Metallurgy, 51, 2, 2016, ISSN:1314-7471, 181-187. SJR:0.194
Цитира се в:
2360. Asma Abdedayem, Monia Guiza, Francisco Javier Rivas Toledo & Abdelmottaleb Ouederni, Ozone Decomposition over Cobalt Supported on Olive Stones Activated Carbon: Effect of Preparation Method on Catalyst Activity, Ozone: Science & Engineering The Journal of the International Ozone Association Volume 39, 2017 - Issue 6, https://doi.org/10.1080/01919512.2017.1331729, 2017
710. Blagoev, B.S., Dimitrov, D.Z., Mehandzhiev, V.B., Kovacheva, D., Terziyska, P., Pavlic, J., Lovchinov, K., Mateev, E., Leclercq, J., Sveshtarov, P.. Electron transport in Al-doped ZnO nanolayers obtained by atomic layer deposition. Journal of Physics: Conference Series, 700, 1, IOP Publishing Ltd., 2016, ISSN:1742-6588, DOI:10.1088/1742-6596/700/1/012040, art. no.-012040. SJR:0.211
Цитира се в:
2361. Marinov, Georgy, Malinowski Nikola, Vasileva Marina, Strijkova Velichka, Madjarova Violeta and Babeva Tsvetanka "Influence of Deposition Parameters on the Optical and Morphological Properties of ZnO Thin Films Deposited by the Electrospray Method." Journal of Physics and Technology, Volume 1 (2017), Number 2, pp. 74-79., 2017 Линк
711. Slavov, A., Panchev, I., Kovacheva, D., Vasileva, I.. Physico-chemical characterization of water-soluble pectic extracts from Rosa damascena, Calendula officinalis and Matricaria chamomilla wastes. Food Hydrocolloids, 61, Elsevier, 2016, ISSN:0268-005X, DOI:10.1016/j.foodhyd.2016.06.006, 469-476. ISI IF:4.53
Цитира се в:
2362. Zhang, Weimin, et al. "Properties of soluble dietary fiber-polysaccharide from papaya peel obtained through alkaline or ultrasound-assisted alkaline extraction." Carbohydrate polymers 172 (2017): 102-112., 2017 Линк
2363. Claro, Francine Ceccon. "Elaboração e caracterização de filmes a partir de nanofibrilas de celulose vegetal.", Dissertação (2017)., 2017 Линк
712. Schipper, F., Dixit, M., Kovacheva, D., Talianker, M., Haik, O., Grinblat, J., Erickson, E.M., Ghanty, C., Major, D.T., Markovsky, B., Aurbach, D.. Stabilizing nickel-rich layered cathode materials by a high-
page 228/232
charge cation doping strategy: Zirconium-doped LiNi0.6Co0.2Mn0.2O2. Journal of Materials Chemistry A, 4, 41, Royal Society of Chemistry, 2016, ISSN:2050-7488, DOI:10.1039/c6ta06740a, 16073-16084. ISI IF:8.36
Цитира се в:
2364. Liang, Chaoping, et al. "Site-dependent multicomponent doping strategy for Ni-rich LiNi 1− 2y Co y Mn y O 2 (y = 1/12) cathode materials for Li-ion batteries." Journal of Materials Chemistry A 5.48 (2017): 25303-25313., 2017 Линк
2365. de Biasi, Lea, et al. "Between Scylla and Charybdis–Balancing Among Structural Stability and Energy Density of Layered NCM Cathode Materials for Advanced Lithium-Ion Batteries." The Journal of Physical Chemistry C, 121 (47), (2017): 26163–26171., 2017 Линк
2366. Ding, Yin, et al. "Recent progresses on nickel-rich layered oxide positive electrode materials used in lithium-ion batteries for electric vehicles." Applied Energy 195 (2017): 586-599., 2017 Линк
2367. Liang, Longwei, et al. "An ordered olivine-type LiCoPO 4 layer grown on LiNi 0.6 Mn 0.2 Co 0.2 O 2 cathode materials applied to lithium-ion batteries." Journal of Alloys and Compounds 695 (2017): 1993-1997., 2017 Линк
2368. Banerjee, Anjan, et al. "Acid-Scavenging Separators: A Novel Route for Improving Li-Ion Batteries’ Durability." ACS Energy Letters 2.10 (2017): 2388-2393., 2017 Линк
2369. Liang Zhichao. "The first principle is to calculate the doping effect of the layered cathode material for Li-ion batteries." Degree Paper in Materials Science and Engineering, Cheng Kung University (2017): 1-79., 2017 Линк
713. Tsoncheva, T., Mileva, A., Paneva, D., Kovacheva, D., Spassova, I., Nihtianova, D., Markov, P., Petrov, N., Mitov, I.. Zinc ferrites hosted in activated carbon from waste precursors as catalysts in methanol decomposition. Microporous and Mesoporous Materials, 229, Elsevier, 2016, ISSN:1387-1811, DOI:10.1016/j.micromeso.2016.04.008, 59-67. ISI IF:3.3
Цитира се в:
2370. Cruz, M.G.A., de Oliveira, A.P.S., Fernandes, F.A.N., de Sousa, F.F., Oliveira, A.C., Filho, J.M., Campos, A.F., Rodríguez-Castellon, E., Fe-containing carbon obtained from ferrocene: Influence of the preparation procedure on the catalytic performance in FTS reaction, (2017) Chemical Engineering Journal, 317, pp. 143-156., 2017 Линк
2371. Ефимов, М. Н., et al. "Металл-углеродные нанокомпозиты C/Co на основе активированного пиролизованного полиакрилонитрила и частиц кобальта." Журнал физической химии 91.9 (2017): 1559-1564., 2017 Линк
2372. Efimov, M. N., Vasilev, A. A., Muratov, D. G., Zemtsov, L. M., & Karpacheva, G. P. (2017). Metal–carbon C/Co nanocomposites based on activated pyrolyzed polyacrylonitrile and cobalt particles. Russian Journal of Physical Chemistry A, 91(9), 1766-1770., 2017 Линк
2373. Luana A., Giusto, L. A., Pissetti, F. L., Castro, T. S., & Magalhães, F. (2017). Preparation of Activated Carbon from Sugarcane Bagasse Soot and Methylene Blue Adsorption. Water, Air, & Soil Pollution, (2017) 228: 249., 2017 Линк
714. Lilkov, V., Petrov, O., Kovacheva, D., Rostovsky, I., Tzvetanova, Y., Petkova, V., Petrova, N.. Carbonation process in cement with mineral additions of natural zeolite and silica fume – Early hydration period (minutes) up to 24 hours. Construction and Building Materials, 124, Elsevier Limited, 2016, ISSN:0950-0618, DOI:10.1016/j.conbuildmat.2016.07.117, 838-845. ISI IF:3.24
Цитира се в:
2374. Rezagholilou, Alireza, Vagelis G. Papadakis, and Hamid Nikraz. "Rate of carbonation in
page 229/232
cement modified base course material." Construction and Building Materials 150 (2017): 646-652., 2017 Линк
2375. Zhang, Yinmin, et al. "Preparation and characterization of a porous silicate material from silica fume." Korean Journal of Chemical Engineering (2017): 1-10., 2017 Линк
715. Velinov, N., Petrova, T., Tsoncheva, T., Genova, I., Koleva, K., Kovacheva, D., Mitov, I.. Auto-combustion synthesis, Mössbauer study and catalytic properties of copper-manganese ferrites. Hyperfine Interactions, 237, 1, Springer Netherlands, 2016, ISSN:0304-3843, DOI:10.1007/s10751-016-1222-8, 1-11. SJR:0.305, ISI IF:0.49
Цитира се в:
2376. Goyal, Ankita, et al. "Augmenting the catalytic performance of spinel nanoferrites (CoFe 2 O 4 and NiFe 2 O 4) via incorporation of Al into the lattice." New Journal of Chemistry 41.16 (2017): 8320-8332., 2017 Линк
2377. Gupta, Kanu, et al. "Enhanced catalytic activity of composites of NiFe2O4 and nano cellulose derived from waste biomass for the mitigation of organic pollutants." Arabian Journal of Chemistry (2017)., 2017 Линк
2378. Kamzin, A. S., et al. "The properties of Mn–CuFe2O4 spinel ferrite nanoparticles under various synthesis conditions." Physics of the Solid State 59.9 (2017): 1841-1851., 2017 Линк
2379. Камзин, А. С., et al. "Зависимости свойств наночастиц феррита-шпинели Mn-CuFe 2 O 4 от технологии синтеза." Физика твердого тела 59.9 (2017): 1816-1827., 2017 Линк
716. Iordanova, R., Bachvarova-Nedelcheva, A., Gegova, R., Kostov, K.L., Dimitriev, Y. Sol–gel synthesis of composite powders in the TiO2–TeO2–SeO2 System. J Sol-Gel Sci Technol, 79, 1, Springer, 2016, ISSN:0928-0707, DOI:10.1007/s10971-016-4029-9, 12-28. SJR:0.48, ISI IF:1.473
Цитира се в:
2380. Cheong, J.Y., Chang, J.H., Kim, C., Mweta, F.J., Jung, J.W., Lee, J.Y. and Kim, I.D., 2017. Revisiting on the effect and role of TiO2 layer thickness on SnO 2 for enhanced electrochemical performance for lithium-ion batteries. Electrochimica Acta, 258, pp.1140-1148, 2017 Линк
717. Hassler, J., Matschat, S., Richter, S., Barth, P., Detcheva, A.K., Waarlo, H.-J.. Determination of 22 trace elements in high-purity copper including Se and Te by ETV-ICP OES using SF6, NF3, CF4 and H2 as chemical modifiers. Journal of Analytical Atomic Spectrometry, RSC Publishing, 2016, ISSN:0267-947, DOI:DOI: 10.1039/C5JA00240K, 642-657. ISI IF:3.379
Цитира се в:
2381. Limbeck, A., Bonta, M., Nischkauer, W. "Improvements in the direct analysis of advanced materials using ICP-based measurement techniques" (2017) Journal of Analytical Atomic Spectrometry, 32 (2), pp. 212-232., 2017
2382. Donati, George L.; Amais, Renata S.; Williams, Charles B. "Recent advances in inductively coupled plasma optical emission spectrometry" (2017) Journal of Analytical Atomic Spectrometry, 32 (7), pp. 1283-1296., 2017
2383. Scheffler, G. L., Makonnen, Y., Pozebon, D., Beauchemin, D. "Solid sampling analysis of a Mg alloy using electrothermal vaporization inductively coupled plasma optical emission spectrometry" (2017) Journal of Analytical Atomic Spectrometry, 32 (10), pp. 2041-2045, 2017
2017
page 230/232
718. Georgieva, J., Valova, E., Armyanov, S., Tatchev, D., Sotiropoulos, S., Avramova, I., Dimitrova, N., Hubin, A., Steenhaut, O.. A simple preparation method and characterization of B and N co-doped TiO2 nanotube arrays with enhanced photoelectrochemical performance. Applied Surface Science, 413, Elsevier, 2017, ISSN:0169-4332, DOI:https://doi.org/10.1016/j.apsusc.2017.04.055, 284-291. SJR:0.951, ISI IF:3.387
Цитира се в:
2384. Teng, W., Wang, Y., Huang, H., Li, X., Tang, Y. Enhanced photoelectrochemical performance of MoS2 nanobelts-loaded TiO2 nanotube arrays by photo-assisted electrodeposition (2017) Applied Surface Science, 425, pp. 507-517., 2017
2385. Kongsong, P., Sikong, L., Masae, M. Photocatalytic degradation of 2, 4-dichlorophenol using N-doped SnO2/TiO2 thin film coated glass fibers (2017) EnvironmentAsia, 10 (2), pp. 126-134., 2017
2386. Zhao, Y., Wang, W., Li, C., He, L.Electronic and photocatalytic properties of N/F co-doped anatase TiO2 (2017) RSC Advances, 7 (87), pp. 55282-55287., 2017 Линк
719. Georgieva, I., Aquino, A.J.A., Trendafilova, N., Lischka, H.. High-level Ab Initio Absorption Spectra Simulations of Neutral, Anionic and Neutral+ Chromophore of Green Fluorescence Protein Chromophore Models in Gas Phase and Solution. Photochemistry and Photobiology, 93, 6, The American Society of Photobiology, 2017, DOI:DOI: 10.1111/php.12778 - 1, 1356-1367. ISI IF:2.121
Цитира се в:
2387. Khrenova, M. G., Polyakov, I. V., Grigorenko, B. L., Krylov, A. I. and Nemukhin, Alexander V., Improving the Design of the Triple-Decker Motif in Red Fluorescent Proteins, J. Phys. Chem. B, 2017, 121 (47), pp 10602–10609, DOI: 10.1021/acs.jpcb.7b07517., 2017 Линк
720. Milenova, K., Zaharieva, K., Stambolova, I., Blaskov, V., Eliyas, A.. Efficiency of ZnO photocatalysts doped with La and Ag. Bulgarian Chemical Communications, 49, special issue F, 2017, 95-99. ISI IF:0.349
Цитира се в:
2388. Physicochemical and photocatalytic studies of Ln3+- ZnO for water disinfection and wastewater treatment applications Ibrahim, M.M., Asal, S. 2017, Journal of Molecular Structure, 1149, pp. 404-413, 2017
721. Ormanova, M., Petrov, P., Kovacheva, D.. Electron beam surface treatment of tool steels. Vacuum, 135, Pergamon, 2017, ISSN:0042-207X, DOI:10.1016/j.vacuum.2016.10.022, 7-12. ISI IF:1.53
Цитира се в:
2389. Fu, Yulei, et al. "Surface hardening of 30CrMnSiA steel using continuous electron beam." Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 410 (2017): 207-214., 2017 Линк
2390. Lukaszkowicz, K., et al. "Characteristics of TiCN coating deposited by cathodic arc evaporation." Journal of Achievements in Materials and Manufacturing Engineering 84.1 (2017)., 2017 Линк
722. Gyurov, S., Marinkov, N., Kostova, Y., Rabadjieva, D., Kovacheva, D., Tzvetkova, C.,, Gentscheva, G., Penkov, I.. Technological scheme for copper slag processing. International Journal of Mineral Processing, 158, Elsevier, 2017, ISSN:0301-7516, DOI:10.1016/j.minpro.2016.11.008, 1-7. SJR:0.852, ISI IF:1.617
Цитира се в:
2391. Ir. Mihailova, L. Radev, D. Mehandjiev, (2017) Phase composition, structure and catalytic
page 231/232
activity in oxidation reactions of fayalite waste from the flotation of copper slag, Journal of Chemical Technology and Metallurgy, 52 (5), 929-939, 2017, 2017 Линк
723. Lazarova. Ts., Georgieva, M., Tzankov, D., Voykova, D., Aleksandrov, L., Cherkezova-Zheleva, Z., Kovacheva, D.. Influence of the type of fuel used for the solution combustion synthesis on the structure, morphology and magnetic properties of nanosized NiFe2O4. 700, Journal of Alloys and Compounds, 2017, ISSN:0925-8388, DOI:10.1016/j.jallcom.2017.01.055, 272-283. ISI IF:3.779
Цитира се в:
2392. Ogugua, Simon Nnalue. Preparation and characterization of powders and pulsed laser deposited thin films of rare-earths doped oxyorthosilicates. Diss. University of the Free State, 2017., 2017 Линк
2393. Wang, Li, et al. "Structural and electromagnetic properties of NiAlxFe2− xO4/SiO2 nanocomposite films deposited using a sol–gel spin-coating method." Journal of Magnetism and Magnetic Materials 444 (2017): 193-197., 2017 Линк
2394. Naderi, P., S. M. Masoudpanah, and S. Alamolhoda. "Magnetic properties of Li0. 5Fe2. 5O4 nanoparticles synthesized by solution combustion method." Applied Physics A 123.11 (2017): 702., 2017 Линк
2395. Specchia, Stefania, et al. "Solution combustion synthesis for preparation of structured catalysts: A mini-review on process intensification for energy applications and pollution control." International Journal of Self-Propagating High-Temperature Synthesis 26.3 (2017): 166-186., 2017 Линк
724. Panayotov, D., Frenkel, A., Morris, J.. Catalysis and Photocatalysis by Nanoscale Au/TiO2: Perspectives for Renewable Energy. ACS Energy Letters, 2, ACS Publications, 2017, DOI:10.1021/acsenergylett.7b00189, 1223-1231. ISI IF:1
Цитира се в:
2396. Yu, S.; Wilson, A. J.; Kumari, G.; Zhang, X.; Jain, P. K., "Opportunities and Challenges of Solar-Energy-Driven Carbon Dioxide to Fuel Conversion with Plasmonic Catalysts". ACS Energy Letters 2017, 2 (9), 2058-2070; DOI: 10.1021/acsenergylett.7b00640, 2017 Линк
725. Grabchev, I., Yordanova, S., Bosch, P., Vasileva-Tonkova, E., Kukeva, R., Stoyanov, S., Stoyanova, R.. Structural characterization of 1, 8-naphthalimides and in vitro microbiological activity of their Cu (II) and Zn (II) complexes. Journal of Molecular Structure, 1130, Elsevier, 2017, 974-983. ISI IF:2.011
Цитира се в:
2397. Meng, Q., Wang, L., Wang, D., Yang, J., Yue, C., & Lu, J. (2017). Synthesis, Crystal Structure, Photoluminescence Properties and Antibacterial Activity of a Zn (II) Coordination Polymer Based on a Paddle-Wheel Cluster. Crystals, 7(4), 112., 2017 Линк
2398. Ostrowska, K., Stadnicka, K., Gryl, M., Musielak, B., Witek, Ł. J., & Bocheńska, O. (2017). Synthesis, Structure, and Photophysical Properties of Luminescent Zinc and Cadmium Complexes Containing 2-Pyridyl-Substituted Pyrrolo [2, 3-b] quinoxaline. Polyhedron 133, 294-301., 2017 Линк
2399. Dangalov, M., Petrov, P., & Vassilev, N. G. (2017). "Naphthalimide-based platinum (II) and palladium (II) N-heterocyclic carbene complexes: synthesis and structural elucidation." BULGARIAN CHEMICAL COMMUNICATIONS, 49, 42-49., 2017 Линк
726. Nedyalkov, N., Nikov, Ru., Dikovska, A., Atanasova, G., Nakajima, Y., Terakawa, M.. Gold nanostructures deposition by laser ablation in air using nano- and femtosecond laser pulses. Applied Physics A: Materials Science & Processing, 123, Springer, 2017, ISSN:ISSN: 0947-8396 (Print) 1432-0630 (Online), DOI:10.1007/s00339-017-0878-5, 306. SJR:0.509, ISI IF:1.455
page 232/232
Цитира се в:
2400. Fu, X., Li, J.-K., Qi, H., Autofocus system for invisible pulsed laser, Guangxue Jingmi Gongcheng/Optics and Precision Engineering 25, 2017 pp. 12-19, 2017
727. Ouasri, A., Lambarki, F., Rhandour, A., Zahariev, Ts. K., Trendafilova, N., Georgieva, I.. Solid state DFT modeling and vibrational characterisation of butylenediammonium and hexylenediammonium hexafluorosilicate, NH3(CH2)nNH3SiF6 (n = 4 and 6). Vibrational Spectroscopy, 88, Elsevier, 2017, DOI:http://dx.doi.org/10.1016/j.vibspec.2016.11.006, 83-93. ISI IF:1.682
Цитира се в:
2401. Taghartapeh, M. R., Pesyan, N. N., Rashidnejad, H., Khavasi, H. R., Soltani, A., Synthesis, spectroscopic and photophysical studies of xanthene derivatives, Journal of Molecular Structure, Volume 1149, 5 December 2017, Pages 862–873., 2017 Линк
728. Tsoncheva, T., Mileva, A., Issa, G., Dimitrov, M., Kovacheva, D., Henych, J., Scotti, N., Kormunda, M., Atanasova, G., Štengl, V.. Template-assisted hydrothermally obtained titania-ceria composites and their application as catalysts in ethyl acetate oxidation and methanol decomposition with a potential for sustainable environment protection. Applied Surface Science, 396, Elsevier, 2017, ISSN:0169-4332, DOI:http://dx.doi.org/10.1016/j.apsusc.2016.11.146, 1289-1302. SJR:0.93, ISI IF:3.15
Цитира се в:
2402. Lu, Feipeng, et al. "Promotional effect of Ti doping on the ketonization of acetic acid over a CeO 2 catalyst." RSC Advances 7.36 (2017): 22017-22026., 2017 Линк
2403. Ziołkowski, P. , Stajnke, M. , Joźwik, P., Modeling of a mixture flow of helium and methanol in thermocatalytic reactor and chemical reactions on the intermethallic phase of Ni3A, Transactions of the Institute of Fluid-Flow Machinery 2017 | nr 138 | 33—73, 2017
729. Koseva, I., Tzvetkov, P., Ivanov, P., Yordanova, A., Nikolov, V.. Terbium and europium co-doped NaAlSiO4 nano glass-ceramics for LED application. Optik, 137, 2017, DOI:https://doi.org/10.1016/j.ijleo.2017.02.098, 45-50. ISI IF:1.191
Цитира се в:
2404. Asahi, Taro, et al. "Photoluminescence of sodium germanosilicate glass synthesized by melting mixture of SiO2, GeO2, and Na2CO3." Optik-International Journal for Light and Electron Optics 149 (2017): 423-429., 2017
730. Andonova, Stanislava, Valentina Marchionni, Luca Lietti, Louise Olsson. Molecular Catalysis. 436, 2017, ISSN:1381-1169, DOI:10.1016/j.mcat.2017.03.030, 43-52. ISI IF:3.958
Цитира се в:
2405. Li Z., Chen N., Wang J., Li P., Guo M., Wang Q., Li C., Wang C., Guo T., Chen S. "Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method" Scientific Reports 7, Article number: 13044, 2017 Линк