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Evidence for single metal two electron oxidative addition and reductive elimination at uranium

Author

Listed:
  • Benedict M. Gardner

    (The University of Manchester)

  • Christos E. Kefalidis

    (Université Paul Sabatier)

  • Erli Lu

    (The University of Manchester)

  • Dipti Patel

    (University of Nottingham)

  • Eric J. L. McInnes

    (The University of Manchester)

  • Floriana Tuna

    (The University of Manchester)

  • Ashley J. Wooles

    (The University of Manchester)

  • Laurent Maron

    (Université Paul Sabatier)

  • Stephen T. Liddle

    (The University of Manchester)

Abstract

Reversible single-metal two-electron oxidative addition and reductive elimination are common fundamental reactions for transition metals that underpin major catalytic transformations. However, these reactions have never been observed together in the f-block because these metals exhibit irreversible one- or multi-electron oxidation or reduction reactions. Here we report that azobenzene oxidises sterically and electronically unsaturated uranium(III) complexes to afford a uranium(V)-imido complex in a reaction that satisfies all criteria of a single-metal two-electron oxidative addition. Thermolysis of this complex promotes extrusion of azobenzene, where H-/D-isotopic labelling finds no isotopomer cross-over and the non-reactivity of a nitrene-trap suggests that nitrenes are not generated and thus a reductive elimination has occurred. Though not optimally balanced in this case, this work presents evidence that classical d-block redox chemistry can be performed reversibly by f-block metals, and that uranium can thus mimic elementary transition metal reactivity, which may lead to the discovery of new f-block catalysis.

Suggested Citation

  • Benedict M. Gardner & Christos E. Kefalidis & Erli Lu & Dipti Patel & Eric J. L. McInnes & Floriana Tuna & Ashley J. Wooles & Laurent Maron & Stephen T. Liddle, 2017. "Evidence for single metal two electron oxidative addition and reductive elimination at uranium," Nature Communications, Nature, vol. 8(1), pages 1-10, December.
  • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01363-0
    DOI: 10.1038/s41467-017-01363-0
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    Cited by:

    1. Che Lah, Nurul Akmal, 2021. "Late transition metal nanocomplexes: Applications for renewable energy conversion and storage," Renewable and Sustainable Energy Reviews, Elsevier, vol. 145(C).

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