Carbon-coated stainless steel as a bipolar plate material in PEM water electrolyzers

Proch Sebastian; Bexell Ulf; Moffatt Claire; Stenström Mikael; Bernuy-Lopez Carlos; Westlinder Jörgen; Becker Hans; Smith Graham; Dickinson Edmund J.F.; Hinds Gareth; Wilke Vincent; Stiber Svenja; Gago Aldo

doi:10.1051/e3sconf/202233401002

E3S Web of Conferences (Jan 2022)

Carbon-coated stainless steel as a bipolar plate material in PEM water electrolyzers

Proch Sebastian,
Bexell Ulf,
Moffatt Claire,
Stenström Mikael,
Bernuy-Lopez Carlos,
Westlinder Jörgen,
Becker Hans,
Smith Graham,
Dickinson Edmund J.F.,
Hinds Gareth,
Wilke Vincent,
Stiber Svenja,
Gago Aldo

Affiliations

Proch Sebastian: Surface Research, Strategic Research, AB Sandvik Materials Technology
Bexell Ulf: Surface Research, Strategic Research, AB Sandvik Materials Technology
Moffatt Claire: Surface Research, Strategic Research, AB Sandvik Materials Technology
Stenström Mikael: Surface Research, Strategic Research, AB Sandvik Materials Technology
Bernuy-Lopez Carlos: Surface Research, Strategic Research, AB Sandvik Materials Technology
Westlinder Jörgen: Surface Research, Strategic Research, AB Sandvik Materials Technology
Becker Hans: National Physical Laboratory
Smith Graham: National Physical Laboratory
Dickinson Edmund J.F.: National Physical Laboratory
Hinds Gareth: National Physical Laboratory
Wilke Vincent: German Aerospace Center (DLR), Institute of Engineering Thermodynamics
Stiber Svenja: German Aerospace Center (DLR), Institute of Engineering Thermodynamics
Gago Aldo: German Aerospace Center (DLR), Institute of Engineering Thermodynamics

DOI: https://doi.org/10.1051/e3sconf/202233401002
Journal volume & issue: Vol. 334
p. 01002

Abstract

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The kinetically sluggish oxygen evolution reaction in proton exchange membrane water electrolyzers (PEMWEs) leads to high potentials of >1.5 V vs RHE at the anode electrode during operation. In contrast, an investigation with an in situ reference electrode indicates a much lower potential at the anode side of the bipolar plate which would allow the use of stainless steel and carbon as the bipolar plate materials. This decoupling is induced by the low conductivity of the circulating deionized water. In single cell electrolyzer tests, we show that carbon-coated 316L (C-316L) stainless steel is suitable as a bipolar plate material in contact with the anode and cathode sides of the PEMWE. The coating remains stable throughout the experiments, i.e., 720 h at the anode and 1000 h at the cathode side. Based on these results we regard carbon-coated stainless steel as a sustainable solution for the large-scale application of PEM water electrolysis since it might replace (Pt-coated) titanium in the bipolar plate.

Published in E3S Web of Conferences

ISSN: 2267-1242 (Online)
Publisher: EDP Sciences
Country of publisher: France
LCC subjects: Geography. Anthropology. Recreation: Environmental sciences
Website: http://www.e3s-conferences.org/

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