化工进展 ›› 2021, Vol. 40 ›› Issue (7): 3826-3836.DOI: 10.16085/j.issn.1000-6613.2020-1640

• 材料科学与技术 • 上一篇    下一篇

聚苯胺基涂层在质子交换膜燃料电池金属双极板上的应用进展

毛韬博(), 栾伟玲(), 付青青   

  1. 华东理工大学机械与动力工程学院承压系统与安全教育部重点实验室,上海 200237
  • 收稿日期:2020-08-17 修回日期:2020-10-26 出版日期:2021-07-06 发布日期:2021-07-19
  • 通讯作者: 栾伟玲
  • 作者简介:毛韬博(1996—),男,硕士研究生,研究方向为双极板涂层。E-mail:y30180554@mail.ecust.edu.cn

Recent progress on polyaniline-based coatings on bipolar plates of proton exchange membrane fuel cells

MAO Taobo(), LUAN Weiling(), FU Qingqing   

  1. Key Laboratory of Pressure Systems and Safety(MOE), School of Mechanical and Power Engineering, East China University of Science and Technology, Shanghai 200237, China
  • Received:2020-08-17 Revised:2020-10-26 Online:2021-07-06 Published:2021-07-19
  • Contact: LUAN Weiling

摘要:

聚苯胺具有独特的导电性和电化学性能,近年来随着燃料电池的发展成为双极板防护的重要材料。然而,聚苯胺涂层在质子交换膜燃料电池高温强酸的工作环境中长期耐蚀性仍无法满足要求,限制了该材料的规模应用。本文综述了聚苯胺基涂层在质子交换膜燃料电池双极板上应用的最新研究进展,包括通过掺杂和共聚改性的聚苯胺涂层、引入高分子材料和纳米材料制备的聚苯胺基复合涂层;分析了各类典型涂层的电化学测试性能结果,总结了聚苯胺基复合涂层的耐蚀机理。最后总结了聚苯胺基涂层研究中目前存在的问题,并对研究方向进行了展望,指出统一测试标准对材料性能评价和商业应用具有重要意义,且今后应重点加强纳米材料复合涂层的研究,并基于原位观测和表征技术对涂层机理进行深入解析。

关键词: 燃料电池, 双极板, 耐腐蚀性, 聚苯胺, 涂层

Abstract:

Due to its unique electrical conductivity and electrochemical properties, polyaniline has become an important material for bipolar plate protection along with the development of fuel cells in recent years. However, the long-term corrosion resistance of the polyaniline coating under the high temperature and strong acid working environment of the proton exchange membrane fuel cell still cannot meet the requirements, which limits its large-scale application. This article reviews the latest research progress on the application of polyaniline-based coatings on bipolar plates for proton exchange membrane fuel cells, including the polyaniline coating modified by doping and copolymerization, and the polyaniline-based composite coating with the introduction of polymer materials and nanomaterials. The electrochemical test and performance results of various typical coatings are analyzed, and the corrosion resistance mechanism of polyaniline-based composite coatings is discussed. Finally, the current problems in the research of polyaniline-based coatings are summarized, and the direction of research and development is prospected. It is pointed out that the test standard should be consistent which has great significance for material performance evaluation and commercial application. Furthermore, the research on nano-material composite coatings should be strengthened in the future and the analysis of the coating mechanism in depth should be based on in-situ observation and characterization technology.

Key words: fuel cell, bipolar plate, corrosion resistance, polyaniline, coating

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