Understanding how water oxidation to molecular oxygen proceeds in molecular metal-oxo catalysts is a challenging endeavor due to their structural complexity. In this report, we unravel the water oxidation mechanism of the highly active water oxidation catalyst [MnVO(OAc)], a polyoxometalate catalyst with a [MnO] cubane core reminiscent of the natural oxygen-evolving complex. Starting from the activated species [Mn VO(OAc)(HO)(OH)], we scrutinized multiple pathways to find that water oxidation proceeds via a sequential proton-coupled electron transfer (PCET), O-O bond formation, another PCET, an intramolecular electron transfer, and another PCET resulting in O evolution, with a predicted thermodynamic overpotential of 0.71 V. An in-depth investigation of the O-O bond formation process revealed an essential interplay between redox isomerism and Jahn-Teller effects, responsible for enhancing reactivity in the catalytic cycle. This is achieved by redistributing electrons between metal centers and weakening relevant bonds through Jahn-Teller distortions, introducing flexibility to the otherwise rigid cubane core of the catalyst. These mechanistic insights are expected to advance the design of efficient bioinspired Mn cubane water-splitting catalysts.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8576808 | PMC |
| http://dx.doi.org/10.1021/acscatal.1c03566 | DOI Listing |
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