硒吩-EDOT类共聚物热电新材料的制备及性能

项目名称： 硒吩-EDOT类共聚物热电新材料的制备及性能

项目编号： No.51303073

项目类型： 青年科学基金项目

立项/批准年度： 2014

项目学科： 一般工业技术

项目作者： 卢宝阳

作者单位： 江西科技师范大学

项目金额： 25万元

中文摘要： 开发导电聚合物热电新材料具有重要的理论和现实意义，近年来引起了国际范围内的广泛关注。聚硒吩类导电高分子具有带宽低、迁移率高等诸多优点，在热电领域展现出良好的应用前景，且其各项性能仍有较大的提升空间，然而当前未能引起重视。本项目在申请人前期成功合成部分硒吩衍生物的基础上，设计制备硒吩及其衍生物与3,4-二氧乙撑噻吩（EDOT）的共聚物新材料，以期实现聚硒吩类材料与明星高分子聚(3,4-二氧乙撑噻吩)（PEDOT）两者之间热电性能的优势互补；对所获共聚物进行系统的结构表征和性能测试；基于热电转换技术应用，筛选性能较好的硒吩-EDOT类共聚物材料，开展热电器件制作、工艺优化及性能评估；同时总结实验研究，探讨硒吩-EDOT类共聚物结构组成及序列排布与材料性能之间的关系，为后续研究提供一定的理论指导与技术基础。

中文关键词： 导电聚合物；聚硒吩；PEDOT；电化学聚合；热电转换

英文摘要： Development of novel conducting polymer thermoelectric materials is very significant from both theoretical and practical aspects, and most recently it has aroused widespread concern in the international range. Polyselenophene and its derivatives have numerous advantages compared with other conducting polymers, such as lower band gap, higher carrier mobility, lower oxidation potentials, etc., and hold promise for applications in thermoelectric field. Despite these advantages, very little research about the thermoelectric performances of polyselenophenes has been reported. Therefore, the design and synthesis of novel polyselenophenes with improved properties suffice for applications are very necessary and significant, and apparently also a considerable challenge. In this project, in order to improve the properties of polyselenophenes, novel selenophenes-EDOT copolymers will be prepared by electrochemical polymerization of a series of polymerizable precursors, which are firstly designed and synthesized from some selenophenes containing electron-donating groups (alkyl and alkoxy, etc.) and 3,4-ethylenedioxythiophene (EDOT). Then the properties of the resulting copolymer materials, such as structural information, spectroscopic properties, thermoelectric properties, electrical conductivity, will be investigated in det

英文关键词： conducting polymers；polyselenophenes；poly(3;4-ethylenedioxythiophene)；electropolymerization；thermoelectric