热电转换器件的研究进展与挑战-中国材料进展

文章信息/Info

作者:: 魏平1; 2; 李龙舟1; 朱婉婷1; 聂晓蕾1; 张健强1; 赵文俞1; 2; 张清杰1; （1.武汉理工大学材料复合新技术国家重点实验室，湖北武汉 430070）（2.先进能源科学与技术广东省实验室佛山分中心（佛山仙湖实验室），广东佛山 528000 ）

Author(s):: WEI Ping1; 2; LI Longzhou1; ZHU Wanting1; NIE Xiaolei1; ZHANG Jianqiang1; ZHAO Wenyu1; 2; ZHANG Qingjie 1; （1.State Key Laboratory of Advanced Technology for Materials Synthesis and Processing, Wuhan University of Technology, Wuhan 430070, China）（2.Foshan Xianhu Laboratory of the Advanced Energy Science and Technology Guangdong Laboratory, Foshan 528000, China）

Keywords:: thermoelectric conversion device; topologic structure; interfacial connection; application technology; challenging problem

摘要:: 热电转换器件作为能实现电能与热能直接相互转换的功能器件，在工业废热回收利用、深空深海电源、半导体制冷、双向精确控温等领域具有重要应用。综述了6类热电转换器件的拓扑结构设计、连接界面控制、集成制造和热电转换性能提升策略等方面的研究进展，内容包含基于块体热电材料的低温、中温和高温单级热电转换器件以及低-中温级联热电转换器件，基于热电磁能源转换材料的热电磁全固态制冷器件，以及基于人造倾斜结构复合材料的横向热电转换器件。同时，简要评述了热电转换器件研究目前面临的诸多挑战，如热电发电应用存在异质界面失稳、热电制冷应用存在材料加工和器件集成困难等。

Abstract:: Thermoelectric (TE) conversion devices, as a kind of functional devices that can realize direct inter-conversion between electricity and thermal energy, have important applications in the field of industrial waste-heat recovery, deep-space and deep-sea power supply, semiconducting cooling, and high-precision bi-directional temperature control. This paper comprehensively reviews the recent research progress of six kinds of TE conversion devices in topological structure design, interfacial connection control, integrated manufacturing, and performance optimization strategies. These devices include low-temperature, moderate-temperature, high-temperature single-stage TE conversion devices, and low-to-moderate temperature segmented TE conversion devices based on the bulk TE materials; thermo-electro-magnetic all-solid-state cooling devices based on the thermo-electro-magnetic materials; transverse TE conversion devices based on artificially tilted multilayer composites. In addition, the paper still briefly comments some of the challenges facing TE conversion devices, which refers to the heterogeneous interfacial instability for power generation applications and the issues in materials processing and device assembling for cooling applications.