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Spin-Gated Selectivity of the Water Oxidation Reaction Mediated by Free Pentameric Ca x Mn 5- x O 5 + Clusters.

Sandra M LangIrene HelzelThorsten M BernhardtRobert N BarnettUzi Landman
Published in: Journal of the American Chemical Society (2022)
We report on the first preparation of isolated ligand-free CaMn 4 O 5 + gas-phase clusters, as well as other pentameric Ca x Mn 5- x O 5 + ( x = 0-4) clusters with varying Ca contents, which serve as molecular models of the natural CaMn 4 O 5 inorganic cluster in photosystem II. Ion trap reactivity studies with D 2 O and H 2 18 O reveal a pronounced cluster composition-dependent ability to mediate the oxidation of water to hydrogen peroxide. First-principles density functional theory simulations elucidate the mechanism of water oxidation, proceeding via formation of a terminal oxyl radical followed by oxyl/hydroxy (O/OH) coupling. The critical coupling reaction step entails a single electron transfer from the oxyl radical to the accommodating cluster core with a concurrent O/OH coupling forming an adsorbed OOH intermediate group. The spin-conserving electron transfer step takes place when the spin of the transferred electron is aligned with the spins of the d-electrons of the Mn atoms in the cuboidal high-spin cluster isomer. The d-electrons provide a ferromagnetically ordered environment that facilitates the spin-gated selective electron transfer process, resulting in parallel-spin-exchange stabilization and a lowered transition state barrier for the coupling reaction involving the frontier orbitals of the oxyl and hydroxy reactant intermediates.
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