A Three-Dimensional Nanoscale View of Electrocatalyst Degradation in Hydrogen Fuel Cells: Article No. 2402310

Lynda Amichi, Haoran Yu, Amirkoushyar Ziabari, Obaidullah Rahman, David Arregui-Mena, Leiming Hu, K. Neyerlin, David Cullen

Research output: Contribution to journalArticlepeer-review

Abstract

The loss of platinum (Pt) electrochemically active surface area (ECSA) is a critical degradation mode that often becomes a limiting factor for heavy-duty proton exchange membrane fuel cell vehicles. High surface area carbon supports have been shown to improve Pt dispersion and limit detrimental ionomer-electrocatalyst interactions due to their large interior pore volume. In this work, using automated scanning transmission electron tomography, the degradation of nanoparticles located on the interior versus exterior surfaces of the carbon support is compared following a catalyst-specific accelerated stress test (AST) of 90,000 voltage cycles between 0.6 V to 0.95 V. The results reveal a notable increase in median particle size for both interior and exterior Pt catalyst particles, with a slightly higher increase in particle size distribution and loss of specific surface area for the particles located on the exterior carbon surface. The fraction of Pt nanoparticles that reside within the interior of the carbon support also increased following the AST test, accompanied by evidence of an increase in average carbon mesopore size. The results shed light on the degradation mechanisms affecting electrochemical properties and the enhanced particle accessibility at lower relative humidity.
Original languageAmerican English
JournalAdvanced Energy Materials
DOIs
StatePublished - 2024

NREL Publication Number

  • NREL/JA-5900-89991

Keywords

  • carbon pores
  • ECSA
  • electron tomography
  • fuel cell
  • nanoparticles

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