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Twinned growth behaviour of two-dimensional materials

Author

Listed:
  • Tao Zhang

    (College of Chemistry and Molecular Sciences, Wuhan University)

  • Bei Jiang

    (College of Chemistry and Molecular Sciences, Wuhan University)

  • Zhen Xu

    (College of Chemistry and Molecular Sciences, Wuhan University)

  • Rafael G. Mendes

    (Leibniz Institute for Solid State and Materials Research Dresden
    College of Physics, Optoelectronics and Energy & Collaborative Innovation Center of Suzhou Nano Science and Technology, Soochow University)

  • Yao Xiao

    (College of Chemistry and Molecular Sciences, Wuhan University)

  • Linfeng Chen

    (College of Chemistry and Molecular Sciences, Wuhan University)

  • Liwen Fang

    (College of Chemistry and Molecular Sciences, Wuhan University)

  • Thomas Gemming

    (Leibniz Institute for Solid State and Materials Research Dresden)

  • Shengli Chen

    (College of Chemistry and Molecular Sciences, Wuhan University)

  • Mark H. Rümmeli

    (Leibniz Institute for Solid State and Materials Research Dresden
    College of Physics, Optoelectronics and Energy & Collaborative Innovation Center of Suzhou Nano Science and Technology, Soochow University
    Centre of Polymer and Carbon Materials, Polish Academy of Sciences)

  • Lei Fu

    (College of Chemistry and Molecular Sciences, Wuhan University)

Abstract

Twinned growth behaviour in the rapidly emerging area of two-dimensional nanomaterials still remains unexplored although it could be exploited to fabricate heterostructure and superlattice materials. Here we demonstrate how one can utilize the twinned growth relationship between two two-dimensional materials to construct vertically stacked heterostructures. As a demonstration, we achieve 100% overlap of the two transition metal dichalcogenide layers constituting a ReS2/WS2 vertical heterostructure. Moreover, the crystal size of the stacked structure is an order of magnitude larger than previous reports. Such twinned transition metal dichalcogenides vertical heterostructures exhibit great potential for use in optical, electronic and catalytic applications. The simplicity of the twinned growth can be utilized to expand the fabrication of other heterostructures or two-dimensional material superlattice and this strategy can be considered as an enabling technology for research in the emerging field of two-dimensional van der Waals heterostructures.

Suggested Citation

  • Tao Zhang & Bei Jiang & Zhen Xu & Rafael G. Mendes & Yao Xiao & Linfeng Chen & Liwen Fang & Thomas Gemming & Shengli Chen & Mark H. Rümmeli & Lei Fu, 2016. "Twinned growth behaviour of two-dimensional materials," Nature Communications, Nature, vol. 7(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms13911
    DOI: 10.1038/ncomms13911
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