摘要
随着工业的快速发展和化石燃料的过度开发使用,能源危机和环境污染日益严重.光催化技术在能源与环境领域具有良好的应用前景,是人类社会可持续发展的有效策略之一.传统氧化锌(ZnO)光催化剂因其无毒性、良好生物相容性和低成本而备受关注.然而,ZnO光催化性能受限于光生载流子复合严重和光生电子还原能力弱等问题.常规的改性方法,包括原子掺杂、缺陷调控、助催化剂负载等,很难兼顾载流子分离效率和氧化还原能力.相较而言,构建梯型异质结可以较好地解决上述问题.梯型异质结界面处的内建电场可以促进光生载流子的高效分离和转移,同时保留光催化体系最强的氧化还原能力,从而实现更高效的光催化反应.然而,尽管已有大量关于ZnO基梯型异质结的研究工作被陆续发表,却很少有评论性文章对该领域进行综述.因此,有必要对ZnO基梯型光催化剂的研究成果进行总结,并为这一研究方向的发展提供及时的指导.本文首先介绍了异质结的发展历程,讨论了II型异质结、传统Z型体系、全固态Z型异质结的光催化反应机理,并在此基础上指出了它们在热力学上的挑战.其次,深入分析了梯型异质结的理论基础,包括还原型半导体和氧化型半导体的选择,相互接触后的电子转移,梯型异质结中内建电场的形成,以及光激发后梯型异质结中光生载流子的分离和迁移,并诠释了梯型异质结在促进电荷载流子分离以及增强光催化体系的氧化还原能力方面的突出优势.此外,阐明了ZnO基梯型异质结的分类和设计原理.除了常见的ZnO基梯型n-n异质结,还讨论了以Zn O为还原型半导体的梯型n-p异质结以及以ZnO为氧化型半导体的梯型p-n异质结.归纳了目前ZnO基梯型异质结光催化剂的制备方法,包括水/溶剂热法、共沉淀法和静电自组装法等,剖析了这些制备方法的优缺点以及所制备的ZnO基梯型异质结的界面性质.概述了以ZnO基梯型异质结为代表的梯型异质结的表征技术,包括原位辐照X射线光电子能谱、开尔文探针力显微镜、电子顺磁共振波谱和第一性原理计算.总结了ZnO基梯型异质结近年来在不同光催化应用领域的研究进展,包括光催化环境修复、制氢、制备双氧水、二氧化碳还原、杀菌、固氮等.最后,对ZnO基梯型异质结的未来发展进行了展望,提出了其所面临的机遇与挑战,希望能为该领域带来新的启示.
ZnO,a typical photocatalyst,has aroused great attention due to its nontoxicity,biocompatibility,and earth abundance.However,its performance is hindered by insufficient light absorption capacity,limited reduction ability,and fast recombination of photogenerated carriers(PC).To overcome these challenges,the construction of ZnO-based S-scheme heterojunctions has emerged as an effective solution,enabling the simultaneous realization of spatially separated PC and enhanced redox abilities.Given the notable progress in ZnO-based S-scheme heterojunctions,it is crucial to review the current achievements and provide guidance for future development.This paper presents the development and representative characterization methods of S-scheme heterojunctions,outlines the design principles of ZnO-based S-scheme heterojunctions,and exemplifies the applications of ZnO-based S-scheme heterojunctions in environmental remediation,hydrogen evolution,H_(2)_(2) production,and CO_(2) reduction.Finally,the significant challenges and potential improvements for ZnO-based S-scheme heterojunction photocatalysts are proposed.
作者
江梓聪
程蓓
张留洋
张振翼
别传彪
Zicong Jiang;Bei Cheng;Liuyang Zhang;Zhenyi Zhang;Chuanbiao Bie(State Key Laboratory of Advanced Technology for Materials Synthesis and Processing,Wuhan University of Technology,Wuhan 430070,Hubei,China;Laboratory of Solar Fuel,Faculty of Materials Science and Chemistry,China University of Geosciences,Wuhan 430078,Hubei,China;Key Laboratory of New Energy and Rare Earth Resource Utilization of State Ethnic Affairs Commission,Key Laboratory of Photosensitive Materials and Devices of Liaoning Province,School of Physics and Materials Engineering,Dalian Minzu University,Dalian 116600,Liaoning,China)
基金
国家重点研发计划(2022YFB3803600,2022YFE0115900)
国家自然科学基金(22278383,52073223,22278324,51932007,22238009,22261142666,U1905215,22202187)
湖北省自然科学基金资助(2022CFA001)
博士后创新人才支持计划(BX2021275)
中国博士后科学基金(2022M712957).
关键词
光催化
梯型异质结
氧化锌
内建电场
光催化应用
Photocatalysis
Step-scheme heterojunction
Zinc oxide
Interfacial internal electric field
Photocatalytic application
