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Catalytically active single-atom niobium in graphitic layers

Author

Listed:
  • Xuefeng Zhang

    (School of Materials Science and Engineering, Dalian University of Technology
    National Research Council of Canada)

  • Junjie Guo

    (Oak Ridge National Laboratory
    University of Tennessee)

  • Pengfei Guan

    (Johns Hopkins University
    Beijing Computational Science Research Center)

  • Chunjing Liu

    (School of Materials Science and Engineering, Dalian University of Technology)

  • Hao Huang

    (School of Materials Science and Engineering, Dalian University of Technology)

  • Fanghong Xue

    (School of Materials Science and Engineering, Dalian University of Technology)

  • Xinglong Dong

    (School of Materials Science and Engineering, Dalian University of Technology)

  • Stephen J. Pennycook

    (Oak Ridge National Laboratory
    University of Tennessee)

  • Matthew F. Chisholm

    (Oak Ridge National Laboratory)

Abstract

Carbides of groups IV through VI (Ti, V and Cr groups) have long been proposed as substitutes for noble metal-based electrocatalysts in polymer electrolyte fuel cells. However, their catalytic activity has been extremely limited because of the low density and stability of catalytically active sites. Here we report the excellent performance of a niobium–carbon structure for catalysing the cathodic oxygen reduction reaction. A large number of single niobium atoms and ultra small clusters trapped in graphitic layers are directly identified using state-of-the-art aberration-corrected scanning transmission electron microscopy. This structure not only enhances the overall conductivity for accelerating the exchange of ions and electrons, but it suppresses the chemical/thermal coarsening of the active particles. Experimental results coupled with theory calculations reveal that the single niobium atoms incorporated within the graphitic layers produce a redistribution of d-band electrons and become surprisingly active for O2 adsorption and dissociation, and also exhibit high stability.

Suggested Citation

  • Xuefeng Zhang & Junjie Guo & Pengfei Guan & Chunjing Liu & Hao Huang & Fanghong Xue & Xinglong Dong & Stephen J. Pennycook & Matthew F. Chisholm, 2013. "Catalytically active single-atom niobium in graphitic layers," Nature Communications, Nature, vol. 4(1), pages 1-7, October.
    • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms2929
    DOI: 10.1038/ncomms2929
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    Cited by:

    1. Shan, Pengyue & Bai, Xue & Jiang, Qi & Chen, Yunjian & Lu, Sen & Song, Pei & Jia, Zepeng & Xiao, Taiyang & Han, Yang & Wang, Yazhou & Liu, Tong & Cui, Hong & Feng, Rong & Kang, Qin & Liang, Zhiyong & , 2023. "Bilayer MN4-O-MN4 by bridge-bonded oxygen ligands: Machine learning to accelerate the design of bifunctional electrocatalysts," Renewable Energy, Elsevier, vol. 203(C), pages 445-454.

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