Issue 36, 2023

Construction of cerium-based oxide catalysts with abundant defects/vacancies and their application to catalytic elimination of air pollutants

Abstract

As environmental regulations become more stringent and public awareness of the need for environmental protection increases, air pollution has become an issue of widespread concern. Catalytic purification technology is considered one of the most effective strategies for the elimination of air pollutants, although the development of highly efficient catalysts has become a key hurdle in the widespread application of this technology. In recent years, cerium-based oxide catalysts have been widely used for the catalytic removal of air pollutants owing to their excellent redox properties, oxygen storage/release capacity, and low cost. Investigating the construction of abundant oxygen vacancies/defects on CeO2 surfaces is important for improving the performance of these catalysts. This review first summarizes recent advances in the preparation of CeO2 catalysts featuring abundant oxygen vacancies/defects, such as the hydrothermal, template, sol–gel, solid-phase synthesis, and coprecipitation methods. Next, the catalytic elimination of air pollutants, including CO, NOx, volatile organic compounds, soot, and SOx, by cerium-based oxide catalysts is discussed. Finally, the problems and prospects of cerium-based oxide catalysts with abundant defects/vacancies for the catalytic elimination of air pollutants are described.

Graphical abstract: Construction of cerium-based oxide catalysts with abundant defects/vacancies and their application to catalytic elimination of air pollutants

Article information

Article type
Review Article
Submitted
05 Jūn. 2023
Accepted
10 Aug. 2023
First published
27 Aug. 2023

J. Mater. Chem. A, 2023,11, 19210-19243

Construction of cerium-based oxide catalysts with abundant defects/vacancies and their application to catalytic elimination of air pollutants

S. Gao, D. Yu, S. Zhou, C. Zhang, L. Wang, X. Fan, X. Yu and Z. Zhao, J. Mater. Chem. A, 2023, 11, 19210 DOI: 10.1039/D3TA03310D

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