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Drastic Redox Shift and Electronic Structural Changes of a Manganese(III)-Salen Oxidation Catalyst upon Reaction with Hydroxide and Cyanide Ion

Flexible redox properties of a metal complex are important for redox catalysis. The present study shows that the reaction of a manganese(III) salen complex, which is a well-known oxidation catalyst, with hydroxide ion gives a transient manganese(III) species with drastically lowered redox potential, where the redox difference is −1.21 V. The reaction with cyanide ion gives a stable manganese(III) species with almost the same spectroscopic and redox properties, which was characterized as an anionic [MnIII(salen)(CN)2]− of low-spin S = 1 state, in contrast to the starting MnIII(salen)(OTf) having usual high-spin S = 2 manganese(III). The present study has thus clarified that the drastic redox shift comes from an anionic six-coordinate [MnIII(salen)(X)2]− species where X is either OH– or CN–. Resonance Raman measurements show that the stretching band of the imino group shifts from 1620 to 1597 cm–1 upon conversion from MnIII(salen)(OTf) to [MnIII(salen)(CN)2]−, indicative of lowered C═N double bond character...

Authors:   Takuya Kurahashi
Journal:   Inorganic Chemistry
Year:   2018
DOI:   10.1021/acs.inorgchem.7b02474
Publication date:   11-Jan-2018
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