Anion-Tuned Layered Double Hydroxide Anodes for Anion Exchange Membrane Water Electrolyzers: From Catalyst Screening to Single-Cell Performance

Anion exchange membrane water electrolysis (AEMWE) is an attractive emerging green hydrogen technology. However, the scaling of trends in activity of anode catalysts for the oxygen evolution reaction (OER) from a liquid-electrolyte, three-electrode environment to the two-electrode single-cell format...

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Bibliographic Details
Published inACS energy letters Vol. 7; no. 10; pp. 3415 - 3422
Main Authors Klingenhof, Malte, Hauke, Philipp, Kroschel, Matthias, Wang, Xingli, Merzdorf, Thomas, Binninger, Christoff, Ngo Thanh, Trung, Paul, Benjamin, Teschner, Detre, Schlögl, Robert, Strasser, Peter
Format Journal Article
LanguageEnglish
Published American Chemical Society 14.10.2022
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Summary:Anion exchange membrane water electrolysis (AEMWE) is an attractive emerging green hydrogen technology. However, the scaling of trends in activity of anode catalysts for the oxygen evolution reaction (OER) from a liquid-electrolyte, three-electrode environment to the two-electrode single-cell format has remained poorly considered. Herein, we critically investigate the scaling of kinetic and catalytic properties of a family of highly active Ni foam (NF) supported, anion (A–)-tuned NiFe­(-A–)-OER catalysts. Trends in catalytic activity suggest impressive improvements of up to 91-fold in three-electrode setups (3LC) compared to uncoated NF. While we demonstrate the successful qualitative structure–performance tunability in a 5 cm2 AEMWE single cell, we also find serious limitations in the quantitative predictability of three-electrode setups for single-cell performance trends. Cell environments appear to equalize the cell performances of designer catalysts, which has important ramifications for electrode development. We succeed in analyzing and discussing some of these translation limitations in terms of previously overlooked effects summarized in the activity improvement factor f.
ISSN:2380-8195
2380-8195
DOI:10.1021/acsenergylett.2c01820