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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四氧化铈（VII）阳离子[Re(O)4]+氧中心双自由基性质的直接光谱证实

单核无机双自由基种类稀少。在这里，我们通过气相x射线吸收光谱结合计算研究，证实了四氧化锇（VII）阳离子的氧中心双自由基特征。在铼以罕见的+6氧化态出现的地方，还发现了一种与二自由基能量相近的二氧化-超氧化异构体。一个或两个氢原子加到[Re，O4]+上形成羟基配体，并且强烈地不利于同分异构体与任何氧-氧键。这为已知的[Re，O4]+从甲烷中连续进行两个氢原子提取反应的能力增加了铼氧化态和配体性质的光谱表征，并证明了五原子[Re，O4]+在高活性物质中结合了最高氧化态的金属中心和两个氧中心自由基配体。

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来源期刊

Chemistry methods : new approaches to solving problems in chemistry

CiteScore

7.30

自引率

0.00%

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