钒酸铋光催化剂的制备及改性  被引量:2

Preparation and Modification of Bismuth Vanadate Photocatalyst

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作  者:张雯[1] 张晗 王觅堂 ZHANG Wen;ZHANG Han;WANG Mitang(School of Materials Science and Engineering,University of Shanghai for Science and Technology,Shanghai 200093,China)

机构地区:[1]上海理工大学材料与化学学院,上海200093

出  处:《材料科学与工程学报》2022年第5期890-900,共11页Journal of Materials Science and Engineering

基  金:国家自然科学基金资助项目(51974168,51662033);硅酸盐建筑材料国家重点实验室(武汉理工大学)开放基金资助项目(SYSJJ2020-08)。

摘  要:本文综述了BiVO_(4)及其复合材料在光催化技术方向中的发展概况。概述了光催化基本原理与BiVO_(4)的晶体结构,阐述了BiVO_(4)以其复合材料的合成方法,并进一步通过阐明离子掺杂、异质结复合等改性方式的机理,表明BiVO_(4)光催化材料在环境净化领域中的应用前景。尽管目前的BiVO_(4)光催化材料仍然存在量子产率低、光生载流子复合高等问题,但可通过优化其结构形貌及制备工艺等,改善材料性能,提高实际应用价值。This paper reviews the development of BiVO_(4) and its composite materials in the field of photocatalysis technology.Firstly,the basic principle of photocatalysis and the crystal structure of BiVO_(4) are summarized.Secondly,the synthesis methods of BiVO_(4) and its composite materials are described.Furthermore,the mechanism of modification methods such as ion doping and heterojunction recombination is explained to show that BiVO_(4) photocatalytic materials have application prospects in the field of environmental purification.Although the current BiVO_(4) photocatalytic materials still have the problems of low quantum yield and high photo-generated carrier recombination,the structure and preparation process can be optimized to improve the material performances and increase the practical application value.

关 键 词:光催化 钒酸铋 制备 改性 复合 

分 类 号:O643[理学—物理化学] O649[理学—化学]

 

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