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An Atomic-Scale Mechanism of Potassium-Oxygen Redox Chemistry.


ABSTRACT: The interaction between K atoms and oxygen molecules on solid surfaces is of topical interest to oxidation-reduction processes in K-O2 batteries. Alkali metals have one ns electron in their valence shell, making them highly chemically reactive toward oxidizing reactants. Mechanistic information on the oxygen reduction by K at the atomic level is scarce despite its key role in defining the alkali metal-O2 battery performance. Here, we use scanning tunneling microscopy and density functional theory to investigate the reduction of a single oxygen molecule by K atoms codeposited on the Ag(111) surface. Our study provides fundamental chemical information on the binary and collective interactions between the O2 and K atoms on metal surfaces.

SUBMITTER: Zhang C 

PROVIDER: S-EPMC12458050 | biostudies-literature | 2025 Sep

REPOSITORIES: biostudies-literature

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An Atomic-Scale Mechanism of Potassium-Oxygen Redox Chemistry.

Zhang Chao C   Chen Linjie L   Zhao Jin J   Petek Hrvoje H  

JACS Au 20250905 9


The interaction between K atoms and oxygen molecules on solid surfaces is of topical interest to oxidation-reduction processes in K-O<sub>2</sub> batteries. Alkali metals have one <i>ns</i> electron in their valence shell, making them highly chemically reactive toward oxidizing reactants. Mechanistic information on the oxygen reduction by K at the atomic level is scarce despite its key role in defining the alkali metal-O<sub>2</sub> battery performance. Here, we use scanning tunneling microscopy  ...[more]

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