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Catalytic electron-transfer oxygenation of substrates with water as an oxygen source using manganese porphyrins

Catalytic electron-transfer oxygenation of substrates with water as an oxygen source using manganese porphyrins
Fukuzumi S.Mizuno T.Ojiri T.
Ewha Authors
Shunichi Fukuzumi
Shunichi Fukuzumiscopusscopus
Issue Date
Journal Title
Chemistry - A European Journal
0947-6539JCR Link
Chemistry - A European Journal vol. 18, no. 49, pp. 15794 - 15804
Document Type
Manganese(V)-oxo-porphyrins are produced by the electron-transfer oxidation of manganese-porphyrins with tris(2,2'-bipyridine)ruthenium(III) ([Ru(bpy) 3]3+; 2 equiv) in acetonitrile (CH3CN) containing water. The rate constants of the electron-transfer oxidation of manganese-porphyrins have been determined and evaluated in light of the Marcus theory of electron transfer. Addition of [Ru(bpy)3]3+ to a solution of olefins (styrene and cyclohexene) in CH3CN containing water in the presence of a catalytic amount of manganese-porphyrins afforded epoxides, diols, and aldehydes efficiently. Epoxides were converted to the corresponding diols by hydrolysis, and were further oxidized to the corresponding aldehydes. The turnover numbers vary significantly depending on the type of manganese-porphyrin used owing to the difference in their oxidation potentials and the steric bulkiness of the ligand. Ethylbenzene was also oxidized to 1-phenylethanol using manganese-porphyrins as electron-transfer catalysts. The oxygen source in the substrate oxygenation was confirmed to be water by using 18O-labeled water. The rate constant of the reaction of the manganese(V)-oxo species with cyclohexene was determined directly under single-turnover conditions by monitoring the increase in absorbance attributable to the manganese(III) species produced in the reaction with cyclohexene. It has been shown that the rate-determining step in the catalytic electron-transfer oxygenation of cyclohexene is electron transfer from [Ru(bpy)3] 3+ to the manganese-porphyrins. Water source: With manganese(III)-porphyrins as catalysts and water as an oxygen source, catalytic electron-transfer oxygenation of substrates with a one-electron oxidant occurs efficiently. A rate-determining electron-transfer oxidation of manganese(III)-porphyrins produces manganese(V)-oxo-porphyrins that rapidly oxygenate the substrates (see scheme). Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
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