燃料电池的先进电催化剂:催化剂和载体材料活性位点的演变及协同特性

Exploration Pub Date : 2024-06-10 DOI:10.1002/exp.20230052
Zhijie Kong, Jingcheng Wu, Zhijuan Liu, Dafeng Yan, Zhi-Peng Wu, Chuan‐Jian Zhong
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引用次数: 0

摘要

质子交换膜燃料电池(PEMFC)是一种清洁高效的储能装置。然而,阴极氧还原反应(ORR)的反应速率缓慢一直是其发展过程中的一个重要问题。本综述报告了先进电催化剂的最新进展,重点介绍了界面/表面电子结构,并探讨了贵金属基和非贵金属基催化剂与支撑材料之间的协同关系。支撑材料包含非金属(C/N/Si 等)和金属基结构,它们在协同增强电催化性能方面发挥了重要作用,尤其是在高温燃料电池系统中。为了改善强相互作用,本文还展示了一些令人兴奋的协同策略,即通过掺杂和包覆异质元素或连接含碳和氮的聚合物配体。除了晶体表面、相结构、晶格应变等的典型作用外,实时测试还突出了结构-性能关系的演变。此外,还回顾了先进的原位表征技术,以强调精确的结构-性能关系。最后,总结了开发 ORR 电催化剂在低温和高温燃料电池系统中商业应用所面临的挑战和前景。
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Advanced electrocatalysts for fuel cells: Evolution of active sites and synergistic properties of catalysts and carrier materials
Proton exchange‐membrane fuel cell (PEMFC) is a clean and efficient type of energy storage device. However, the sluggish reaction rate of the cathode oxygen reduction reaction (ORR) has been a significant problem in its development. This review reports the recent progress of advanced electrocatalysts focusing on the interface/surface electronic structure and exploring the synergistic relationship of precious‐based and non‐precious metal‐based catalysts and support materials. The support materials contain non‐metal (C/N/Si, etc.) and metal‐based structures, which have demonstrated a crucial role in the synergistic enhancement of electrocatalytic properties, especially for high‐temperature fuel cell systems. To improve the strong interaction, some exciting synergistic strategies by doping and coating heterogeneous elements or connecting polymeric ligands containing carbon and nitrogen were also shown herein. Besides the typical role of the crystal surface, phase structure, lattice strain, etc., the evolution of structure‐performance relations was also highlighted in real‐time tests. The advanced in situ characterization techniques were also reviewed to emphasize the accurate structure‐performance relations. Finally, the challenge and prospect for developing the ORR electrocatalysts were concluded for commercial applications in low‐ and high‐temperature fuel cell systems.
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