Degradation of Fuel Cell Membrane Electrode Assemblies from Buses Operated More than 25,000 h

Harsh Srivastav; Arthur Dizon; Lynda Amichi; Mike L. Perry; Ali Aboobaker Sadhakkathullahil; Grace Lau; Catherine M. Weiss; Brice Florey; Douglas I. Kushner; Matthew Wilson; Dave A. Cullen; Mike Gorman; Clayton J. Radke; Adam Z. Weber; Rangachary Mukundan

doi:10.1149/1945-7111/ade82b

Degradation of Fuel Cell Membrane Electrode Assemblies from Buses Operated More than 25,000 h

Harsh Srivastav
, Arthur Dizon
, Lynda Amichi
, Mike L. Perry
, Ali Aboobaker Sadhakkathullahil
, Grace Lau
, Catherine M. Weiss
, Brice Florey
, Douglas I. Kushner
, Matthew Wilson
, Dave A. Cullen
, Mike Gorman
, Clayton J. Radke
, Adam Z. Weber
, Rangachary Mukundan

electron Microscopy and Microanalysis

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

This study investigates the performance losses and degradation of proton-exchange-membrane fuel-cell stacks taken from the Alameda Contra Costa Transit District (AC Transit) bus system (Alameda and Contra Costa counties, California, United States) that were operated for over 25,000 h. Here, we focus on the origin of differences in electrochemical performance between beginning-of-life (BOL) and end-of-life states as well as diagnostic data acquired during the lifetime of the buses. In doing so, we employ in- and ex- situ characterization methods such as polarization curves, electrochemical impedance spectroscopy, electron microscopy, and X-ray characterization. Uniform degradation of the catalyst layer including Pt agglomeration/migration and electrode thinning was observed in all of the post-teardown measurements compared to BOL materials resulting from years of field operation. Despite these changes, the measured post-teardown performance suggests a sufficient output for the expected load, which indicate factors other than degradation of the membrane-electrode assemblies (MEAs) are likely responsible for the decommissioning of the stacks. The findings indicate that these MEA materials can enable long lifetime in fuel-cell vehicles, if the MEAs are not subjected to adverse operating conditions. The results also highlight the need for more in-vehicle diagnostics to maximize the lifetime of fuel cell vehicle (FCV) powerplants.

Original language	English
Article number	074507
Journal	Journal of the Electrochemical Society
Volume	172
Issue number	7
DOIs	https://doi.org/10.1149/1945-7111/ade82b
State	Published - Jul 1 2025

Funding

The authors would like to thank Jose Vega, James Souza, and Cecil O. Blandon from the Alameda Contra Costa Transit District for their help in providing the data taken over the lifetime of the fuel cell buses. This work was supported by the Hydrogen and Fuel Cell Technologies Office (HFTO), Office of Energy Efficiency and Renewable Energy, U.S. Department of Energy (DOE) through the Million Mile Fuel Cell Truck (M2FCT) consortia, technology managers G. Kleen and D. Papageorgopoulos, under Contract Number DE-AC02-05CH11231. Electron microscopy research was supported by the Center for Nanophase Materials Sciences (CNMS), which is a U.S. Department of Energy, Office of Science User Facility at Oak Ridge National Laboratory. All opinions expressed in this article are of the authors’ and do not necessarily reflect the policies and views of the DOE.

Keywords

electrode kinetics
energy conversion
fuel cells - PEM

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10.1149/1945-7111/ade82b

Cite this

Srivastav, H., Dizon, A., Amichi, L., Perry, M. L., Sadhakkathullahil, A. A., Lau, G., Weiss, C. M., Florey, B., Kushner, D. I., Wilson, M., Cullen, D. A., Gorman, M., Radke, C. J., Weber, A. Z., & Mukundan, R. (2025). Degradation of Fuel Cell Membrane Electrode Assemblies from Buses Operated More than 25,000 h. Journal of the Electrochemical Society, 172(7), Article 074507. https://doi.org/10.1149/1945-7111/ade82b

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title = "Degradation of Fuel Cell Membrane Electrode Assemblies from Buses Operated More than 25,000 h",

abstract = "This study investigates the performance losses and degradation of proton-exchange-membrane fuel-cell stacks taken from the Alameda Contra Costa Transit District (AC Transit) bus system (Alameda and Contra Costa counties, California, United States) that were operated for over 25,000 h. Here, we focus on the origin of differences in electrochemical performance between beginning-of-life (BOL) and end-of-life states as well as diagnostic data acquired during the lifetime of the buses. In doing so, we employ in- and ex- situ characterization methods such as polarization curves, electrochemical impedance spectroscopy, electron microscopy, and X-ray characterization. Uniform degradation of the catalyst layer including Pt agglomeration/migration and electrode thinning was observed in all of the post-teardown measurements compared to BOL materials resulting from years of field operation. Despite these changes, the measured post-teardown performance suggests a sufficient output for the expected load, which indicate factors other than degradation of the membrane-electrode assemblies (MEAs) are likely responsible for the decommissioning of the stacks. The findings indicate that these MEA materials can enable long lifetime in fuel-cell vehicles, if the MEAs are not subjected to adverse operating conditions. The results also highlight the need for more in-vehicle diagnostics to maximize the lifetime of fuel cell vehicle (FCV) powerplants.",

keywords = "electrode kinetics, energy conversion, fuel cells - PEM",

author = "Harsh Srivastav and Arthur Dizon and Lynda Amichi and Perry, \{Mike L.\} and Sadhakkathullahil, \{Ali Aboobaker\} and Grace Lau and Weiss, \{Catherine M.\} and Brice Florey and Kushner, \{Douglas I.\} and Matthew Wilson and Cullen, \{Dave A.\} and Mike Gorman and Radke, \{Clayton J.\} and Weber, \{Adam Z.\} and Rangachary Mukundan",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published on behalf of The Electrochemical Society by IOP Publishing Limited.",

year = "2025",

month = jul,

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doi = "10.1149/1945-7111/ade82b",

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Srivastav, H, Dizon, A, Amichi, L, Perry, ML, Sadhakkathullahil, AA, Lau, G, Weiss, CM, Florey, B, Kushner, DI, Wilson, M, Cullen, DA, Gorman, M, Radke, CJ, Weber, AZ & Mukundan, R 2025, 'Degradation of Fuel Cell Membrane Electrode Assemblies from Buses Operated More than 25,000 h', Journal of the Electrochemical Society, vol. 172, no. 7, 074507. https://doi.org/10.1149/1945-7111/ade82b

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T1 - Degradation of Fuel Cell Membrane Electrode Assemblies from Buses Operated More than 25,000 h

AU - Srivastav, Harsh

AU - Dizon, Arthur

AU - Amichi, Lynda

AU - Perry, Mike L.

AU - Sadhakkathullahil, Ali Aboobaker

AU - Lau, Grace

AU - Weiss, Catherine M.

AU - Florey, Brice

AU - Kushner, Douglas I.

AU - Wilson, Matthew

AU - Cullen, Dave A.

AU - Gorman, Mike

AU - Radke, Clayton J.

AU - Weber, Adam Z.

AU - Mukundan, Rangachary

PY - 2025/7/1

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N2 - This study investigates the performance losses and degradation of proton-exchange-membrane fuel-cell stacks taken from the Alameda Contra Costa Transit District (AC Transit) bus system (Alameda and Contra Costa counties, California, United States) that were operated for over 25,000 h. Here, we focus on the origin of differences in electrochemical performance between beginning-of-life (BOL) and end-of-life states as well as diagnostic data acquired during the lifetime of the buses. In doing so, we employ in- and ex- situ characterization methods such as polarization curves, electrochemical impedance spectroscopy, electron microscopy, and X-ray characterization. Uniform degradation of the catalyst layer including Pt agglomeration/migration and electrode thinning was observed in all of the post-teardown measurements compared to BOL materials resulting from years of field operation. Despite these changes, the measured post-teardown performance suggests a sufficient output for the expected load, which indicate factors other than degradation of the membrane-electrode assemblies (MEAs) are likely responsible for the decommissioning of the stacks. The findings indicate that these MEA materials can enable long lifetime in fuel-cell vehicles, if the MEAs are not subjected to adverse operating conditions. The results also highlight the need for more in-vehicle diagnostics to maximize the lifetime of fuel cell vehicle (FCV) powerplants.

AB - This study investigates the performance losses and degradation of proton-exchange-membrane fuel-cell stacks taken from the Alameda Contra Costa Transit District (AC Transit) bus system (Alameda and Contra Costa counties, California, United States) that were operated for over 25,000 h. Here, we focus on the origin of differences in electrochemical performance between beginning-of-life (BOL) and end-of-life states as well as diagnostic data acquired during the lifetime of the buses. In doing so, we employ in- and ex- situ characterization methods such as polarization curves, electrochemical impedance spectroscopy, electron microscopy, and X-ray characterization. Uniform degradation of the catalyst layer including Pt agglomeration/migration and electrode thinning was observed in all of the post-teardown measurements compared to BOL materials resulting from years of field operation. Despite these changes, the measured post-teardown performance suggests a sufficient output for the expected load, which indicate factors other than degradation of the membrane-electrode assemblies (MEAs) are likely responsible for the decommissioning of the stacks. The findings indicate that these MEA materials can enable long lifetime in fuel-cell vehicles, if the MEAs are not subjected to adverse operating conditions. The results also highlight the need for more in-vehicle diagnostics to maximize the lifetime of fuel cell vehicle (FCV) powerplants.

KW - electrode kinetics

KW - energy conversion

KW - fuel cells - PEM

UR - https://www.scopus.com/pages/publications/105010457855

U2 - 10.1149/1945-7111/ade82b

DO - 10.1149/1945-7111/ade82b

M3 - Article

AN - SCOPUS:105010457855

SN - 0013-4651

VL - 172

JO - Journal of the Electrochemical Society

JF - Journal of the Electrochemical Society

IS - 7

M1 - 074507

ER -

Degradation of Fuel Cell Membrane Electrode Assemblies from Buses Operated More than 25,000 h

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