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Bond selectivity in electron-induced reaction due to directed recoil on an anisotropic substrate

Author

Listed:
  • Kelvin Anggara

    (Lash Miller Chemical Laboratories, University of Toronto)

  • Kai Huang

    (Lash Miller Chemical Laboratories, University of Toronto)

  • Lydie Leung

    (Lash Miller Chemical Laboratories, University of Toronto)

  • Avisek Chatterjee

    (Lash Miller Chemical Laboratories, University of Toronto)

  • Fang Cheng

    (Lash Miller Chemical Laboratories, University of Toronto
    Present address: National University of Singapore, Center for Advanced 2D Materials, 1 CREATE Way, CREATE Tower, Singapore 138602, Singapore)

  • John C. Polanyi

    (Lash Miller Chemical Laboratories, University of Toronto)

Abstract

Bond-selective reaction is central to heterogeneous catalysis. In heterogeneous catalysis, selectivity is found to depend on the chemical nature and morphology of the substrate. Here, however, we show a high degree of bond selectivity dependent only on adsorbate bond alignment. The system studied is the electron-induced reaction of meta-diiodobenzene physisorbed on Cu(110). Of the adsorbate’s C-I bonds, C-I aligned ‘Along’ the copper row dissociates in 99.3% of the cases giving surface reaction, whereas C-I bond aligned ‘Across’ the rows dissociates in only 0.7% of the cases. A two-electronic-state molecular dynamics model attributes reaction to an initial transition to a repulsive state of an Along C-I, followed by directed recoil of C towards a Cu atom of the same row, forming C-Cu. A similar impulse on an Across C-I gives directed C that, moving across rows, does not encounter a Cu atom and hence exhibits markedly less reaction.

Suggested Citation

  • Kelvin Anggara & Kai Huang & Lydie Leung & Avisek Chatterjee & Fang Cheng & John C. Polanyi, 2016. "Bond selectivity in electron-induced reaction due to directed recoil on an anisotropic substrate," Nature Communications, Nature, vol. 7(1), pages 1-6, December.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms13690
    DOI: 10.1038/ncomms13690
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