Recent research progress in PEM fuel cell electrocatalyst degradation and mitigation strategies

The performance degradation of proton exchange membrane fuel cells (PEMFCs) is one of the most critical challenges in their practical applications. Degradations of electrocatalysts for oxygen reduction reaction (ORR) at cathode and hydrogen oxidation reaction (HOR) at the anode are the major contributors to PEMFC degradation, which are mainly induced by fuel/air impurities, unintentional harmful species during the preparation and use of the catalysts, as well as catalyst decomposition during the operation. This review summarizes the recent research on PEMFC performance degradation and the progress in developing mitigation strategies for avoiding the degradation. Several aspects are emphasized as follows: the understanding of catalyst poisoning phenomena, influencing factors, and general degradation mechanisms. Several technical challenges are analyzed and the corresponding future research directions are proposed to facilitate the further research and development of mitigation strategies for PEMFC catalyst degradation.

Automated summary

This review highlights the main causes of PEMFC performance degradation and recent research progress on developing mitigation strategies. It emphasizes understanding catalyst poisoning phenomena, influencing factors, and general degradation mechanisms. Additionally, it analyzes technical challenges and proposes future research directions to facilitate the further development of mitigation strategies for PEMFC catalyst degradation.