基于晶体学原理的高效光催化材料的设计与制备  被引量:4

Design and Synthesis of Efficient Photocatalyst Based on the Principal of Crystallography

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作  者:王泽岩[1] 王朋[1] 刘媛媛 郑昭科[1] 程合锋[1] 黄柏标[1] WANG Zeyan;WANG Peng;LIU Yuanyuan;ZHENG Zhaoke;CHENG Hefeng;HUANG Baibiao(State Key Laboratory of Crystal Materials,Shandong University,Jinan 250100,China)

机构地区:[1]山东大学,晶体材料国家重点实验室,济南250100

出  处:《人工晶体学报》2021年第4期685-707,共23页Journal of Synthetic Crystals

基  金:国家重点研发计划(2020YFA0710301);国家自然科学基金(51972195)。

摘  要:光催化技术是一种将太阳能转换为化学能的新技术,基于该技术可利用半导体光催化材料实现光催化分解水制氢、二氧化碳还原制备有机物、降解有机污染物等,是解决未来能源和环境问题的潜在途径之一。然而,作为光催化技术的核心,光催化材料面临着光吸收范围窄、光生载流子分离效率低等问题,这些问题严重制约着光催化能量转化效率及其实际应用。针对制约光催化材料活性的关键科学问题,近年来本课题组从晶体学基本原理出发,基于半导体材料结构与性能的关系,通过对半导体材料的晶体结构、电子结构、微结构参数进行设计与调控,探索制备了一系列具有宽光谱响应范围、高载流子分离效率的新型高效光催化材料,为设计制备新型高效光催化材料提供了一些新的设计思路和材料制备方法。Photocatalysis is a new technique that can convert solar energy into chemical energy.Semiconductor photocatalysts can be used to split water to generate hydrogen,reduce CO2 to organic species,or degrade organic pollutants into eco-friendly species.It has been regarded as one of the most promising strategy to solve energy and environmental problems in the future.However,limited by the poor visible light absorption and inefficient charge separation rate,the photocatalytic activity of the present photocatalysts is still far from the criteria for practical applications.To solve these problems,we have recently developed a series of new strategies based on the basic principle of crystallography to further extend the light absorption range of photocatalysts and stimulate the charge separation inside and at the surface of photocatalysts.And this work may provide some new threads on the design and synthesis of highly efficient photocatalysts.

关 键 词:光催化材料 晶体学 结构与性能关系 材料设计 制备方法 微结构调控 

分 类 号:O734[理学—晶体学]

 

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