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Mechanistic insight into carbon-carbon bond formation on cobalt under simulated Fischer-Tropsch synthesis conditions

Author

Listed:
  • C. J. (Kees-Jan) Weststrate

    (SynCat@DIFFER, Syngaschem BV)

  • Devyani Sharma

    (SynCat@DIFFER, Syngaschem BV
    Dutch Institute for Fundamental Energy Research (DIFFER))

  • Daniel Garcia Rodriguez

    (SynCat@DIFFER, Syngaschem BV
    Dutch Institute for Fundamental Energy Research (DIFFER))

  • Michael A. Gleeson

    (Dutch Institute for Fundamental Energy Research (DIFFER))

  • Hans O. A. Fredriksson

    (SynCat@DIFFER, Syngaschem BV)

  • J. W. (Hans) Niemantsverdriet

    (SynCat@DIFFER, Syngaschem BV
    SynCat@Beijing, Synfuels China Technology Co. Ltd.)

Abstract

Facile C-C bond formation is essential to the formation of long hydrocarbon chains in Fischer-Tropsch synthesis. Various chain growth mechanisms have been proposed previously, but spectroscopic identification of surface intermediates involved in C-C bond formation is scarce. We here show that the high CO coverage typical of Fischer-Tropsch synthesis affects the reaction pathways of C2Hx adsorbates on a Co(0001) model catalyst and promote C-C bond formation. In-situ high resolution x-ray photoelectron spectroscopy shows that a high CO coverage promotes transformation of C2Hx adsorbates into the ethylidyne form, which subsequently dimerizes to 2-butyne. The observed reaction sequence provides a mechanistic explanation for CO-induced ethylene dimerization on supported cobalt catalysts. For Fischer-Tropsch synthesis we propose that C-C bond formation on the close-packed terraces of a cobalt nanoparticle occurs via methylidyne (CH) insertion into long chain alkylidyne intermediates, the latter being stabilized by the high surface coverage under reaction conditions.

Suggested Citation

  • C. J. (Kees-Jan) Weststrate & Devyani Sharma & Daniel Garcia Rodriguez & Michael A. Gleeson & Hans O. A. Fredriksson & J. W. (Hans) Niemantsverdriet, 2020. "Mechanistic insight into carbon-carbon bond formation on cobalt under simulated Fischer-Tropsch synthesis conditions," Nature Communications, Nature, vol. 11(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-14613-5
    DOI: 10.1038/s41467-020-14613-5
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    Cited by:

    1. Patrick Lömker & David Degerman & Christopher M. Goodwin & Mikhail Shipilin & Peter Amann & Gabriel L. S. Rodrigues & Fernando Garcia-Martinez & Raffael Rameshan & Jörgen Gladh & Hsin-Yi Wang & Markus, 2025. "In-situ probing of the Fischer-Tropsch reaction on Co single crystal surfaces up to 1 bar," Nature Communications, Nature, vol. 16(1), pages 1-10, December.

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