Advances in facet-dependent photocatalytic properties of BiOCl catalyst for environmental remediation-Reference-Cited by-同舟云学术

Advances in facet-dependent photocatalytic properties of BiOCl catalyst for environmental remediation

Published:2022-06-24 Issue:0 Volume:0 Page:
ISSN:0193-4929
Container-title:Reviews in Inorganic Chemistry
language:en
Short-container-title:

Author:

Hao Linjing¹²,Zhang Tingting¹²,Sang Haoran¹²,Jiang Suyu³⁴,Zhang Jie¹²⁵,Yang Jinghe³

Affiliation:

1. School of Ecology and Environment , Zhengzhou University , Henan 450001 , P. R. China

2. International Joint Laboratory of Environment and Resources of Henan Province , Henan 450001 , P. R. China

3. School of Chemical Engineering , Zhengzhou University , Henan 450001 , P. R. China

4. Research Center of Heterogeneous Catalysis & Engineering Sciences , Zhengzhou University , Henan 450001 , P. R. China

5. Research Centre of Engineering and Technology for Synergetic Control of Environmental Pollution and Carbon Emissions of Henan Province , Henan 450001 , P. R. China

Abstract

Abstract Bismuth chloride oxide (BiOCl) is a typical V-VI-VII ternary oxide material, which is one of the widely studied metal oxides due to its unique surface, electronic and photocatalytic properties. However, the broad bandgap and the large number of photogenerated electron-hole pair complexes of BiOCl limit its photocatalytic efficiency. Since the photocatalytic performance of BiOCl is highly dependent on its exposed crystallographic facets, research attention has increasingly focused on the different structures and properties possessed by different crystallographic facets of BiOCl. This article reviews the basic principles of using different crystalline surfaces of BiOCl materials to enhance photocatalytic activity, summarizes the applications of BiOCl single-crystal catalysts and composite catalysts in the environmental field, and provides an outlook on the challenges and new research directions for future development in this emerging frontier area. It is hoped that the crystalline surface-related photocatalysis of BiOCl can be used to provide new guidance for the rational design of novel catalysts for various energy and environment-related applications.

Funder

National Natural Science Foundation of China

China Post-Doctoral Science Foundation

Key Scientific and Technological Project of Henan Province

Publisher

Walter de Gruyter GmbH

Subject

Inorganic Chemistry

Link

https://www.degruyter.com/document/doi/10.1515/revic-2022-0015/pdf

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