An X-ray study of the phase composition of Mo-W-O, Ti-W-O, and Cu-W-O catalysts was carried out. Analysis of X-ray diffraction patterns of the Mo-W-O catalytic system showed that in all samples, mainly the phases of molybdenum and tungsten oxides, namely MoO₃ and WO₃, are formed. It is shown that, in contrast to Mo-W-O catalysts, in addition to the initial titanium and tungsten oxides, the samples of the Ti-W-O catalytic system also contain phases of chemical compounds. So, in Ti-W-O samples, there are phases of titanium oxide (anatase), titanium oxide (rutile), and tungsten oxide. It has been established that the degree of crystallinity of binary titanium-tungsten oxide samples decreases with increasing titanium content in the catalyst composition from 83.4% to 70.2%. In the case of copper-tungsten oxide catalysts, in addition to the initial oxides of copper and tungsten also contain phases of the chemical compound of copper tungstate, and crystallinity degrees of binary copper-tungsten oxide samples changes in the ranges from 85.7% to 41.3%.

K.X. Aghayeva, V.L Baghiyev. Conversion of ethanol over Mo-W-O catalysts. Austrian Journal of Technical and Natural Sciences. 2017, № 7-8, p.47-50.

K.X. Aghayeva, V.L Baghiyev. Ethanol Conversion over Binary Ti-W-O Catalysts. 5th International School-Conference on Catalysis for Young Scientists, Catalyst Design: From Molecular to Industrial Level, May 20-23, 2018, Moscow, Russia, Abstracts, Novosibirsk, PP-V-22, p.279.

S.H. Mammadova, K.X. Aghayeva, Conversion of ethanol over binary copper containing catalysts. Chemical problems, 2020 N. 2 (18), pp.199-205.

K.X. Aghayeva, V.L Baghiyev. Activity of binary copper-tungsten oxide catalysts in the ethanol conversion reaction. Proceedings of the IV All-Russian (with international participation) scientific symposium "Actual problems of theory and practice of heterogeneous catalysts and adsorbents", Ivanovo-Suzdal, 2019, p. 223-225.

Riccardo Bacchiocchi, Alessia Ventimiglia, Andrea Canciani, Giorgia Peroni, Tommaso Tabanelli, Stefania Albonetti, Nikolaos Dimitratos, Ivan Rivalta, Shima Zainal, Luke Forster, Carmine D'Agostino, Fabrizio Cavani. Structure-activity relationships of ZrO2 crystalline phases in the catalytic transfer hydrogenation of methyl levulinate with ethanol. Journal of Catalysis 2023, Volume 428, 115177.

Jiayao Chen, Yuan Gao, Wenwen Yang, Zhiwei Li, Kun Xiong. Effect of different crystalline phase of TiO2 on the catalytic activity of Ru catalysts in hydrogen evolution under acidic and alkaline media. International Journal of Hydrogen Energy, 2024, Volume 52, Part B, Pages 302-310.

Jingdong Yang, Jinxing Wang, Shiwen Ma, Bin Ke, Le Yu, Wen Zeng, Yanqiong Li, Jinfeng Wang. Insight into the effect of crystalline structure on the oxygen reduction reaction activities of one-dimensional MnO2. Physica E: Low-dimensional Systems and Nanostructures, 2019, Volume 109, Pages 191-197.

Takayasu Kiyokawa, Naoki Ikenaga. Oxidative dehydrogenation of n-butene to buta-1,3-diene with a novel iron oxide-based catalyst: Effect of iron oxide crystalline structure. Molecular Catalysis, 2021, Volume 507, 111560.

Fenghai Cao. Nana Gong, Zixuan Ma, Xiaoxing Wang, Minghui Tan, Yingquan Wu, Yisheng Tan. Controlling CO2 hydrogenation selectivity by Rh-based catalysts with different crystalline phases of TiO2. Chemical Communications. 2022, Volume 58, Issue 26, Pages 4219-4222.

Yang Yang, Shuya Wei, Yafei Li, Donggang Guo, Huajie Liu, Lu Liu. Effect of cobalt doping-regulated crystallinity in nickel-iron layered double hydroxide catalyzing oxygen evolution. Applied Catalysis B: Environmental, 2022, Volume 314, 121491.