2023-08-11 ニューサウスウェールズ大学(UNSW)
◆水素燃料電池はクリーンで持続可能なエネルギー源であり、新たな材料や耐久性の向上が課題です。新しい方法を用いて材料の安定性を分析し、改善を図ることで、低コストのプラチナフリー水素燃料電池の実用化に一歩近づくことが期待されています。
<関連情報>
- https://newsroom.unsw.edu.au/news/science-tech/future-hydrogen-fuel-unsw-researchers-develop-technique-analyse-hydrogen-fuel-cell
- https://pubs.rsc.org/en/content/articlelanding/2023/EE/D3EE01166F
プロトン交換膜燃料電池における鉄-窒素-炭素触媒の劣化メカニズムをオペランドデコンボリューションで解明 Operando deconvolution of the degradation mechanisms of iron–nitrogen–carbon catalysts in proton exchange membrane fuel cells
Shiyang Liu,Quentin Meyer,Chen Jia,Shuhao Wang,Chengli Rong,Yan Nie and Chuan Zhao
Energy & Environmental Science Published:19 Jul 2023
DOI:https://doi.org/10.1039/D3EE01166F
Abstract
Developing platinum-free catalysts for proton exchange membrane fuel cells (PEMFCs) is crucial to the hydrogen economy. While iron–nitrogen–carbon (Fe–N–C) catalysts are currently the most promising non-Pt alternative for the ORR, their poor stability in PEMFCs are challenging to understand due to the multitude of degradation mechanisms occurring simultaneously. Herein, we deconvolute these mechanisms in PEMFC over 60 hours under high load (1 A cm−2) using advanced electrochemical methods such as the distribution of relaxation times. This allows us to identify when iron demetallation and carbon corrosion occur and unveil an intricate degradation pathway through the operando deterioration of the triple-phase boundary. Firstly, up to 75% of the Fe–N–C active sites become inactive through iron demetallation which initially drives the voltage losses (<10 hours). Then, a five-fold increase in carbon corroded species and four-fold reduction in proton transport kinetics in the catalyst layer lengthen the gas, ionic and electronic pathways to the catalytic sites, reducing the oxygen reduction reaction (ORR) rate by three-fold and becoming the predominant degradation mechanism. These insights are captured via a combination of cyclic voltammetry and the distribution of relaxation times. Altogether, these provide unprecedented insights into this degradation mechanism while proposing operando standards to characterize unstable electrocatalysts.
