Recent advance on structural design of high-performance Pt-based nanocatalysts for oxygen reduction reaction

Fu-Rong Yang, Lei Gao, Wen-Chuan Lai, Hong-Wen Huang
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引用次数: 4

Abstract

Proton exchange membrane fuel cells (PEMFCs) represent a promising technology to overcome the current energy and environmental issues, where high-performance cathodic catalysts are badly needed due to the sluggish kinetics of oxygen reduction reaction (ORR). By far Pt stands for the best ORR catalyst, however, considering the scarcity and high cost, it is imperative to further improve its catalytic activity and atomic efficiency to reduce the loading amount. In view of the key issues, this review concentrates on recent advances on developing high-performance Pt-based nanocatalysts for ORR. The catalytic ORR mechanism was first described, followed by presenting the major principles to regulate ORR activity involving ligand effect and geometric effect. Guided by the principles, typical design strategies of Pt-based nanocatalysts were detailedly summarized, with emphasis on increasing intrinsic activity of single active site and electrochemical active surface area. We finally concluded by providing the remaining challenges and future directions in this field.

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氧还原反应高性能pt基纳米催化剂结构设计研究进展
质子交换膜燃料电池(PEMFC)是一种很有前途的技术,可以克服当前的能源和环境问题,因为氧还原反应(ORR)动力学缓慢,急需高性能阴极催化剂。到目前为止,Pt代表最好的ORR催化剂,然而,考虑到其稀缺性和高成本,必须进一步提高其催化活性和原子效率,以减少负载量。鉴于这些关键问题,本文综述了开发用于ORR的高性能Pt基纳米催化剂的最新进展。首先介绍了ORR的催化机理,然后介绍了调节ORR活性的主要原理,包括配体效应和几何效应。在这些原则的指导下,详细总结了Pt基纳米催化剂的典型设计策略,重点是提高单个活性位点的固有活性和电化学活性表面积。最后,我们提出了该领域的剩余挑战和未来方向。
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