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Computational characterization of single-electron transfer steps in water oxidation

Inorganics (2019) 7(3)
DOI: 10.3390/INORGANICS7030032
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Abstract

The presence of single-electron transfer (SET) steps in water oxidation processes catalyzed by first-row transition metal complexes has been recently recognized, but the computational characterization of this type of process is not trivial. We report a systematic theoretical study based on density functional theory (DFT) calculations on the reactivity of a specific copper complex active in water oxidation that reacts through two consecutive single-electron transfers. Both inner-sphere (through transition state location) and outer-sphere (through Marcus theory) mechanisms are analyzed. The first electron transfer is found to operate through outer-sphere, and the second one through inner-sphere. The current work proposes a scheme for the systematic study of single-electron transfer in water oxidation catalysis and beyond.

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APA

de Aguirre, A., Funes-Ardoiz, I., & Maseras, F. (2019). Computational characterization of single-electron transfer steps in water oxidation. Inorganics, 7(3). https://doi.org/10.3390/INORGANICS7030032

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