Abstract: The O-O coupling process in water oxidation on the gamma FeOOH hydroxide catalyst is simulated by means of density functional theory using model iron cubane cluster Fe4O4(OH)4. A key reactive intermediate is proposed to be the HO FeIV O• oxyl unit with terminal oxo radical. The “initial” vertex FeIII(OH) moiety forms this intermediate at the calculated overpotential of 0.93 V by adding one water molecule and withdrawing two proton–electron pairs. The O O coupling goes via water nucleophilic attack on the oxyl oxygen to form the O O bond with a remarkably low barrier of 11 kcal/mol. This process is far more effective than alternative scenario based on direct interaction of two ferryl FeIV O sites (with estimated barrier of 36 kcal/mol) and is comparable with the coupling between terminal oxo center and three-coordinated lattice oxo center (12 kcal/mol barrier). The process of hydroxylation of terminal oxygen inhibits the O O coupling. Nevertheless, being more effective for ferryl oxygen, the hydroxylation in fact enhances selectivity of the O O coupling initiated by the oxyl oxygen.

Cite: Shubin A.A. , Kovalskii V.Y. , Ruzankin S.P. , Zilberberg I.L. , Parmon V.N. , Tomilin F.N. , Avramov P.V.
The FeIV-O• Oxyl Unit as a Key Intermediate in Water Oxidation on the FeIII-Hydroxide: DFT Predictions
International Journal of Quantum Chemistry. 2021. V.121. N10. e26610 :1-9. DOI: 10.1002/qua.26610 WOS Scopus РИНЦ AN OpenAlex OpenAlex

Files: Full text from publisher

Dates:

Submitted:	Jun 1, 2020
Accepted:	Jan 14, 2021
Published online:	Feb 8, 2021
Published print:	May 15, 2021

Identifiers:

Web of science:	WOS:000615962600001
Scopus:	2-s2.0-85100536364
Elibrary:	46742731
Chemical Abstracts:	2021:334598
OpenAlex:	W3127471962 | W3101416574

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Web of science	1
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