期刊
ADVANCED FUNCTIONAL MATERIALS
卷 31, 期 25, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.202100919
关键词
charge separation; oxygen vacancies; photoabsorption; semiconductor photocatalysts; surface catalytic reactions
类别
资金
- National Natural Science Foundation of China of China [51972288, 51672258]
- Fundamental Research Funds for the Central Universities [2652018287]
This review systematically summarizes the recent progress in oxygen vacant semiconductor photocatalysts, including the formation and characterizations of oxygen vacancies, the roles of oxygen vacancies in different types of photocatalysts, and the advanced applications in pollutant removal, H2 production, CO2 reduction, N2 fixation, and organic synthesis. Current challenges and future prospects of oxygen vacant materials are also discussed.
Semiconductor photocatalysis acts as a sustainable green technology to convert solar energy for environmental purification and production of renewable energy. However, the current photocatalysts suffer from inefficient photoabsorption, rapid recombination of photogenerated electrons and holes, and inadequate surface reactive sites. Introduction of oxygen vacancies (OVs) in photocatalysts has been demonstrated to be an efficacious strategy to solve these issues and improve photocatalytic efficiency. This review systematically summarizes the recent progress in the oxygen vacant semiconductor photocatalysts. Firstly, the formation and characterizations of OVs in semiconductor photocatalysts are briefly introduced. Then, highlighted are the roles of OVs in the photocatalytic reactions of three types of typical oxygen-containing semiconductors, including metal oxides (TiO2, ZnO, WO3, W18O49, MoO3, BiO2-x, SnO2, etc), hydroxides (In(OH)(3), Ln(OH)(3) (Ln=La, Pr, and Nd), Layered double hydroxides) and oxysalts (bismuth-based oxysalts and others) photocatalysts. Moreover, the advanced photocatalytic applications of oxygen vacant semiconductor photocatalysts, such as pollutant removal, H-2 production, CO2 reduction, N-2 fixation and organic synthesis are systematically summarized. Finally, an overview on the current challenges and a prospective on the future of oxygen vacant materials is proposed.
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