采用持久发光材料为内部光源的光催化复合材料研究进展

A State-of-the-art Review on Photocatalytic Composite Materials Using Persistent Luminescent Materials as Internal Light Sources

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摘要光催化材料和持久发光材料(LPLs)均是以太阳能为能量来源的清洁材料,其中光催化材料已在空气净化、医疗卫生、自清洁建材等领域获得显著的成果。目前,已有研究表明将LPLs作为光催化材料的内部光源可以进一步改进光催化材料的催化时长和效率,因此本文旨在总结现有关于持久发光-光催化复合材料的国内外研究进展:首先介绍了光催化材料及LPLs的种类;其次讨论了持久发光-光催化复合材料的复合条件、作用机理、合成方法;最后总结了持久发光-光催化复合材料的催化性能研究进展,并对未来的研究方向进行了展望。 Both catalytic materials and long-lasting luminescent materials(LPLs)are environmentally clean materials that harness solar energy as their energy source.Among these,the utilization of catalytic materials has demonstrated significant advancements in various domains,including air purification,medical health,and the development of self-cleaning building materials.In light of the studies suggesting that the integration of LPLs as internal light sources within catalytic materials can augment both their durability and effectiveness,this paper endeavors to provide a comprehensive overview of domestic and international research on persistent luminescence-photocatalytic composite materials.First,the various types of photocatalytic materials and LPLs are reviewed.Then,the composite conditions,action mechanisms,and synthesis methods of persistent luminescence-photocatalytic composite materials are discussed.At last,research progress on the catalytic performance of persistent luminescence-photocatalytic composite materials is summarized,and the future research directions are discussed.

作者蔡心杰徐亦冬王玉全武金婷 CAI Xinjie;XU Yidong;WANG Yuquan;WU Jinting(College of Civil Engineering and Architecture,Zhejiang University,Hangzhou 310058,China;College of Civil Engineering,NingboTech University,Ningbo 315100,Zhejiang,China)

机构地区浙江大学建筑工程学院浙大宁波理工学院土木建筑工程学院

出处《材料导报》 EI CAS CSCD 北大核心 2024年第15期96-105,共10页 Materials Reports

基金浙江省自然科学基金重点项目(LZ22E080003) 浙江省交通厅科技计划项目(202225)。

关键词光催化持久发光材料水泥基材料污染物降解 photocatalysis persistent luminescent materials cement-based materials pollutant degradation

分类号 TU525 [建筑科学—建筑技术科学]

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2024年第15期

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采用持久发光材料为内部光源的光催化复合材料研究进展

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