Activation of molecular oxygen by a molybdenum complex for catalytic oxidation

Antoine Dupé,a   Martina E. Judmaier,a   Ferdinand Belaj,a   Klaus Zanggerb and    Nadia C. Mösch-Zanetti*a

a and b: University of Graz, Austria

Dalton Trans. 2015, Advance Article
DOI: 10.1039/C5DT02931G

A sterically demanding molybdenum(VI) dioxo complex was found to catalytically activate molecular oxygen and to transfer its oxygen atoms to phosphines. Intermediate peroxo as well as reduced mono-oxo complexes were isolated and fully characterized. Monomeric Mo(IV) monooxo species proved to be of an unusual nature with the coordinated phosphine trans to the oxo group. The reduced molybdenum centers can activate O2 to form a stable Mo(VI) oxo–peroxo complex unambiguously characterized by single crystal X-ray diffraction analysis. NMR experiments demonstrate that both oxygen atoms of the peroxo unit are transferred to an accepting substrate, generating the Mo(IV) intermediate and restarting the catalytic cycle.

酸素を酸化剤として、トリメチルホスフィン（かなり酸化されやすい）を触媒的に酸化したという報告で、錯体に対して100等量加えた基質を、O2雰囲気下、24時間でフォスフィンオキシド(yield 19%, TON 19回)にしています。

出発錯体はMo(VI)ジオキソで、基質を酸化してMo(IV)モノオキソになります。これは酸素と反応してMo(VI)オキソ-パーオキソ錯体になります。それぞれの錯体は単離して結晶構造もでていますが、どちらのMo(VI)が活性なのかはよくわかりません。