Correlation between oxygen evolution reaction activity and surface compositional evolution in epitaxial La0.5Sr0.5Ni1−xFexO3−δthin films

Adiga, Prajwal; Wang, Le; Wong, Cindy; Matthews, Bethany E.; Bowden, Mark E.; Spurgeon, Steven R.; Sterbinsky, George E.; Blum, Monika; Choi, Min-Ju; Tao, Jinhui; Kaspar, Tiffany C.; Chambers, Scott A.; Stoerzinger, Kelsey A.; Du, Yingge

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Royal Society of Chemistry, Nanoscale, 3(15), p. 1119-1127, 2023

DOI: 10.1039/d2nr05373j

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Correlation between oxygen evolution reaction activity and surface compositional evolution in epitaxial La0.5Sr0.5Ni1−xFexO3−δthin films

Journal article published in 2023 by Prajwal Adiga, Le Wang

, Cindy Wong, Bethany E. Matthews, Mark E. Bowden

, Steven R. Spurgeon

, George E. Sterbinsky, Monika Blum, Min-Ju Choi, Jinhui Tao

, Tiffany C. Kaspar

, Scott A. Chambers, Kelsey A. Stoerzinger

, Yingge Du

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Abstract

A Ni–Fe based perovskite oxide catalyzes the oxygen evolution reaction (OER), coupled with changes in local composition and structure identified by virtue of an epitaxial thin film geometry.

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Correlation between oxygen evolution reaction activity and surface compositional evolution in epitaxial La<sub>0.5</sub>Sr<sub>0.5</sub>Ni<sub>1−x</sub>Fe<sub>x</sub>O<sub>3−δ</sub>thin films

Abstract