The influence of electrode crack dimensions on the durability of polymer electrolyte membrane fuel cells

IF 8.1 2区工程技术 Q1 CHEMISTRY, PHYSICAL Journal of Power Sources Pub Date : 2024-11-23 DOI:10.1016/j.jpowsour.2024.235884

Audrey K. Taylor , Carlos M. Baez-Cotto , Leiming Hu , Colby Smith , Alejandra Rodriguez-Nazario , James L. Young , Scott A. Mauger , K.C. Neyerlin

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Abstract

Electrode cracks in polymer electrolyte membrane fuel cells (PEMFCs) are correlated with early onset failures. In this work we investigate the influence of cracked gas diffusion electrodes (GDEs) on the durability of the membrane electrode assembly (MEA) using a combined chemical-mechanical accelerated stress test (AST). Electrode crack dimensions were systematically tuned using ink formulations and material selection strategies. A parameter to describe the crack width areal density (Φ_CW) was used to quantify the degree of discontinuity in the electrode surfaces. Open circuit voltage (OCV) transient analyses were used to benchmark and characterize the failure mechanisms in the MEAs as a function of the Φ_CW. While smaller electrode-level cracks, on the order of microns, yielded a 28 % decrease in operating lifetime, larger cracks that propagated from a discontinuous, microporous layer (MPL) coating, decreased the operating lifetime by 56 %. This work emphasizes the need for material processing strategies that consider defect tolerances to limit membrane failures in PEMFCs.

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电极裂纹尺寸对聚合物电解质膜燃料电池耐久性的影响

聚合物电解质膜燃料电池（PEMFC）中的电极裂纹与早期故障有关。在这项工作中，我们使用化学机械加速应力测试 (AST) 来研究气体扩散电极 (GDE) 裂纹对膜电极组件 (MEA) 耐用性的影响。利用油墨配方和材料选择策略系统地调整了电极裂缝尺寸。用一个参数来描述裂纹宽度均密度 (ΦCW)，以量化电极表面的不连续程度。开路电压（OCV）瞬态分析用于确定 MEA 的失效机制，并描述其与ΦCW 的函数关系。较小的电极级裂纹（微米级）使工作寿命缩短了 28%，而从不连续性微孔层 (MPL) 涂层扩展的较大裂纹则使工作寿命缩短了 56%。这项工作强调，需要考虑缺陷公差的材料加工策略，以限制 PEMFC 中的膜故障。

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来源期刊

Journal of Power Sources 工程技术-电化学

CiteScore

16.40

自引率

6.50%

发文量

1249

审稿时长

36 days

期刊介绍： The Journal of Power Sources is a publication catering to researchers and technologists interested in various aspects of the science, technology, and applications of electrochemical power sources. It covers original research and reviews on primary and secondary batteries, fuel cells, supercapacitors, and photo-electrochemical cells. Topics considered include the research, development and applications of nanomaterials and novel componentry for these devices. Examples of applications of these electrochemical power sources include: • Portable electronics • Electric and Hybrid Electric Vehicles • Uninterruptible Power Supply (UPS) systems • Storage of renewable energy • Satellites and deep space probes • Boats and ships, drones and aircrafts • Wearable energy storage systems