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Coupling dinitrogen and hydrocarbons through aryl migration

Author

Listed:
  • Sean F. McWilliams

    (Yale University)

  • Daniël L. J. Broere

    (Yale University
    Utrecht University)

  • Connor J. V. Halliday

    (University of Edinburgh)

  • Samuel M. Bhutto

    (Yale University)

  • Brandon Q. Mercado

    (Yale University)

  • Patrick L. Holland

    (Yale University)

Abstract

The activation of abundant molecules such as hydrocarbons and atmospheric nitrogen (N2) remains a challenge because these molecules are often inert. The formation of carbon–nitrogen bonds from N2 typically has required reactive organic precursors that are incompatible with the reducing conditions that promote N2 reactivity1, which has prevented catalysis. Here we report a diketiminate-supported iron system that sequentially activates benzene and N2 to form aniline derivatives. The key to this coupling reaction is the partial silylation of a reduced iron–dinitrogen complex, followed by migration of a benzene-derived aryl group to the nitrogen. Further reduction releases N2-derived aniline, and the resulting iron species can re-enter the cyclic pathway. Specifically, we show that an easily prepared diketiminate iron bromide complex2 mediates the one-pot conversion of several petroleum-derived arenes into the corresponding silylated aniline derivatives, by using a mixture of sodium powder, crown ether, trimethylsilyl bromide and N2 as the nitrogen source. Numerous compounds along the cyclic pathway are isolated and crystallographically characterized, and their reactivity supports a mechanism for sequential hydrocarbon activation and N2 functionalization. This strategy couples nitrogen atoms from N2 with abundant hydrocarbons, and maps a route towards future catalytic systems.

Suggested Citation

  • Sean F. McWilliams & Daniël L. J. Broere & Connor J. V. Halliday & Samuel M. Bhutto & Brandon Q. Mercado & Patrick L. Holland, 2020. "Coupling dinitrogen and hydrocarbons through aryl migration," Nature, Nature, vol. 584(7820), pages 221-226, August.
    • Handle: RePEc:nat:nature:v:584:y:2020:i:7820:d:10.1038_s41586-020-2565-5
    DOI: 10.1038/s41586-020-2565-5
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    Cited by:

    1. Takayuki Itabashi & Kazuya Arashiba & Akihito Egi & Hiromasa Tanaka & Keita Sugiyama & Shun Suginome & Shogo Kuriyama & Kazunari Yoshizawa & Yoshiaki Nishibayashi, 2022. "Direct synthesis of cyanate anion from dinitrogen catalysed by molybdenum complexes bearing pincer-type ligand," Nature Communications, Nature, vol. 13(1), pages 1-10, December.

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