Hydrogen Generation During Thermal Processes of Water Decomposition on the Surface of Nano-ZrO2+3mol.%Y2O3

İmanova, Günel; Asgerov, Elmar; Jabarov, Sakin; Mansimov, Zaur; Kaya, Mustafa; Doroshkevich, Aleksandr

doi:10.48048/tis.2023.4684

Hydrogen Generation During Thermal Processes of Water Decomposition on the Surface of Nano-ZrO2+3mol.%Y2O3

İmanova G., Asgerov E., Jabarov S., Mansimov Z., Kaya M., Doroshkevich A.

Trends in Sciences, vol.20, no.4, 2023 (Scopus)

Nəşrin Növü: Article / Article
Cild: 20 Say: 4
Nəşr tarixi: 2023
Doi nömrəsi: 10.48048/tis.2023.4684
jurnalın adı: Trends in Sciences
Jurnalın baxıldığı indekslər: Scopus
Açar sözlər: Adsorption, desorption, Hydrogen generation, Kinetics, Nano-ZrO2+3mol.%Y2O3, Thermal processes
Adres: Bəli

Qısa məlumat

The study of physicochemical properties of nano-ZrO2+3mol.%Y2O3 was determined. The X-ray diffraction spectrum of the nano-ZrO2 and system nano-ZrO2+3 mol.%Y2O3 compound was drawn by the Ritveld method and the crystal structure was determined at different temperatures (T = 373, 473, 573, 673 K) and under normal conditions. The energy of the arrangement of H2 as a result of the decay of H2O, on the surface of nano-ZrO2+3mol.%Y2O3 was considered. Impacts of adsorption and desorption preparation of ZrO2+3mol.%Y2O3 nanoparticles were considered at diverse (T = 373, 473, 573, 673 K) temperatures. The thought of H2 in warm forms at nano-ZrO2+3mol.%Y2O3 framework expanded. This tells about hydrogen era by water part in close future. Nano-ZrO2 and system nano-ZrO2+3mol.%Y2O3 with the temperature range of T = 373, 473, 573, 673 K have been studied by SEM analysis. These results are promising of hydrogen generation by water splitting in near future.