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Catalysis on singly dispersed bimetallic sites

Author

Listed:
  • Shiran Zhang

    (University of Kansas
    University of Kansas)

  • Luan Nguyen

    (University of Kansas
    University of Kansas)

  • Jin-Xia Liang

    (Tsinghua University
    Guizhou Provincial Key Laboratory of Computational Nano-Material Science, Guizhou Normal College)

  • Junjun Shan

    (University of Kansas
    University of Kansas)

  • Jingyue Liu

    (Arizona State University)

  • Anatoly I. Frenkel

    (Yeshiva University)

  • Anitha Patlolla

    (Yeshiva University)

  • Weixin Huang

    (University of Kansas
    University of Kansas)

  • Jun Li

    (Tsinghua University)

  • Franklin Tao

    (University of Kansas
    University of Kansas)

Abstract

A catalytic site typically consists of one or more atoms of a catalyst surface that arrange into a configuration offering a specific electronic structure for adsorbing or dissociating reactant molecules. The catalytic activity of adjacent bimetallic sites of metallic nanoparticles has been studied previously. An isolated bimetallic site supported on a non-metallic surface could exhibit a distinctly different catalytic performance owing to the cationic state of the singly dispersed bimetallic site and the minimized choices of binding configurations of a reactant molecule compared with continuously packed bimetallic sites. Here we report that isolated Rh1Co3 bimetallic sites exhibit a distinctly different catalytic performance in reduction of nitric oxide with carbon monoxide at low temperature, resulting from strong adsorption of two nitric oxide molecules and a nitrous oxide intermediate on Rh1Co3 sites and following a low-barrier pathway dissociation to dinitrogen and an oxygen atom. This observation suggests a method to develop catalysts with high selectivity.

Suggested Citation

  • Shiran Zhang & Luan Nguyen & Jin-Xia Liang & Junjun Shan & Jingyue Liu & Anatoly I. Frenkel & Anitha Patlolla & Weixin Huang & Jun Li & Franklin Tao, 2015. "Catalysis on singly dispersed bimetallic sites," Nature Communications, Nature, vol. 6(1), pages 1-10, November.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms8938
    DOI: 10.1038/ncomms8938
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