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Elucidation of Ce/Zr ratio effects on the physical properties and catalytic performance of CuOx/CeyZr1−yO2 catalystsElucidation of Ce/Zr ratio effects on the physical properties and catalytic performance of CuOx/CeyZr1-yO2 catalysts

Other Titles
Elucidation of Ce/Zr ratio effects on the physical properties and catalytic performance of CuOx/CeyZr1-yO2 catalysts
Authors
Sifat, MohammedLuchowski, MichalPophali, AmolJiang, WenhuiLu, YunfanKim, ByeongseokKwon, GihanYoon, KwangsukKim, JihunAn, KwangjinShim, Sang EunSong, HocheolKim, Taejin
Issue Date
Dec-2024
Publisher
Royal Society of Chemistry
Citation
Catalysis Science & Technology, v.14, no.24, pp 7107 - 7123
Pages
17
Indexed
SCIE
SCOPUS
Journal Title
Catalysis Science & Technology
Volume
14
Number
24
Start Page
7107
End Page
7123
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212456
DOI
10.1039/d4cy01012d
ISSN
2044-4753
2044-4761
Abstract
Although cerium oxide (CeO2) is widely used as a catalyst support, its limited defect sites and surface oxygen vacancy/mobility should be improved. The incorporation of zirconium (Zr) in the cerium (Ce) lattice is shown to increase the number of oxygen vacancies and improve catalytic activity. Using a fixed surface density (SD) of copper (∼2.3 Cu atoms per nm2) as a surface species, the role of the support (CeyZr1−yO2 (y = 1.0, 0.9, 0.6, 0.5, and 0.0)) and defect site effects in the CO oxidation reaction was investigated. Spectroscopic (e.g., Raman, XRD, XPS) and microscopic (e.g., SEM-EDX, HR-TEM) characterization techniques were applied to evaluate the defect sites, crystallite size, lattice parameters, chemical composition, oxidation states of elements and microstructure of the catalysts. The CO oxidation reaction with varied CO : O2 ratios (1 : 5, 1 : 1, and 1 : 0.5 (stoichiometric)) was used as a model reaction to describe the relationship between the structure and the catalytic performance of each catalyst. Based on the characterization results of CeyZr1−yO2 materials, the addition of Zr causes physical and chemical changes to the overall material. The inclusion of Zr into the structure of CeO2 decreased the overall lattice parameter of the catalyst and increased the number of defect sites. The prepared catalysts were able to reach complete CO conversion (∼100%) at low temperature conditions (<200 °C), each showing varied reaction activity. The difference in CO oxidation activity was then analyzed and related to the structure, wherein Cu loading, surface oxygen vacancies, reduction–oxidation ability, CuOx–support interaction and oxygen mobility in the catalyst were the crucial descriptors.
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