Direct Spectroscopic Confirmation of the Oxygen-Centered Diradical Character of the Tetraoxidorhenium(VII) Cation [Re(O)4]+

IF 6.1 Q1 CHEMISTRY, MULTIDISCIPLINARY

Chemistry methods : new approaches to solving problems in chemistry Pub Date : 2024-10-25 DOI:10.1002/cmtd.202400023

Mayara da Silva Santos, Dr. Robert Medel, Simon Kruse, Max Flach, Olesya S. Ablyasova, Martin Timm, Prof. Dr. Bernd von Issendorff, Dr. Konstantin Hirsch, Dr. Vicente Zamudio-Bayer, Prof. Dr. Sebastian Riedel, Prof. Dr. J. Tobias Lau

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Abstract

Mononuclear inorganic diradical species are scarce. Here, we confirm, via X-ray absorption spectroscopy in the gas phase combined with computational studies, the oxygen-centered diradical character of the tetraoxidorhenium(VII) cation. A dioxido-superoxido isomer, close in energy to the diradical, is also found, where rhenium appears in its rare oxidation state of +6. Addition of one or two hydrogen atoms to [Re,O₄]⁺ forms hydroxido ligands, and strongly disfavors isomers with any oxygen-oxygen bond. This adds spectroscopic characterization of the rhenium oxidation state and the nature of ligands to the known ability of [Re,O₄]⁺ to perform two consecutive hydrogen-atom abstraction reactions from methane, and demonstrates that pentaatomic [Re,O₄]⁺ combines a metal center in its highest oxidation state with two oxygen-centered radical ligands in a highly reactive species.

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