TY - GEN
T1 - Metallic Gas Diffusion Layers for Polymer Electrolyte Fuel Cells
AU - Yamamoto, Kotaro
AU - Yasutake, Masahiro
AU - Noda, Zhiyun
AU - Lyth, Stephen Matthew
AU - Matsuda, Junko
AU - Nishihara, Masamichi
AU - Hayashi, Akari
AU - Sasaki, Kazunari
N1 - Publisher Copyright:
© 2022 ECS - The Electrochemical Society.
PY - 2022
Y1 - 2022
N2 - Porous carbon materials are widely used as gas diffusion layers (GDL) in polymer electrolyte fuel cells (PEFCs). Further improvements of these carbon materials are required, including cost reduction and improved mechanical strength. For example, the low mechanical strength of carbon-based GDLs limits the extent to which they can be thinned to reduce PEFC size and cost. Here, the applicability of various metallic GDLs is examined for reducing thickness and cost. Stainless steel GDLs coated with gold (Au) were prepared via physical vapor deposition, as a proof-of-concept. It is revealed that a thin Au coating results in reduced overvoltage and improved cell performance. Whilst Au is expensive and should eventually be replaced with inexpensive materials for practical applications, this work shows that conventional metallic materials could be applied as GDLs if the electrical contact is sufficiently improved.
AB - Porous carbon materials are widely used as gas diffusion layers (GDL) in polymer electrolyte fuel cells (PEFCs). Further improvements of these carbon materials are required, including cost reduction and improved mechanical strength. For example, the low mechanical strength of carbon-based GDLs limits the extent to which they can be thinned to reduce PEFC size and cost. Here, the applicability of various metallic GDLs is examined for reducing thickness and cost. Stainless steel GDLs coated with gold (Au) were prepared via physical vapor deposition, as a proof-of-concept. It is revealed that a thin Au coating results in reduced overvoltage and improved cell performance. Whilst Au is expensive and should eventually be replaced with inexpensive materials for practical applications, this work shows that conventional metallic materials could be applied as GDLs if the electrical contact is sufficiently improved.
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U2 - 10.1149/10909.0265ecst
DO - 10.1149/10909.0265ecst
M3 - Conference contribution
AN - SCOPUS:85140221076
T3 - ECS Transactions
SP - 265
EP - 274
BT - ECS Transactions
PB - Institute of Physics
T2 - 242nd ECS Meeting
Y2 - 9 October 2022 through 13 October 2022
ER -