Energy & Environ Materials
 2024
DOI: 10.1002/eem2.12737
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Time‐Resolved Oxidation State Changes Are Key to Elucidating the Bifunctionality of Perovskite Catalysts for Oxygen Evolution and Reduction

Casey E. Beall,
Emiliana Fabbri,
Adam H. Clark
et al.

Abstract: In a unified regenerative fuel cell (URFC) or reversible fuel cell, the oxygen bifunctional catalyst must switch reversibly between the oxygen reduction reaction (ORR), fuel cell mode, and the oxygen evolution reaction (OER), electrolyzer mode. However, it is often unclear what effect alternating between ORR and OER has on the electrochemical behavior and physiochemical properties of the catalyst. Herein, operando X‐ray absorption spectroscopy (XAS) is utilized to monitor the continuous and dynamic evolution o… Show more

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Fine-tuning catalytic selectivity by modulating catalyst-environment interactions: CO2 hydrogenation over Pd-based catalysts

Zhang,
Liu
2024
Chem Catalysis
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Fine-tuning catalytic selectivity by modulating catalyst-environment interactions: CO2 hydrogenation over Pd-based catalysts

Zhang,
Liu
2024
Chem Catalysis
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Designing bifunctional perovskite catalysts for the oxygen reduction and evolution reactions

Beall,
Fabbri,
Clark
et al. 2024
EES. Catal.
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