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Nanometre-thick single-crystalline nanosheets grown at the water–air interface

Author

Listed:
  • Fei Wang

    (University of Wisconsin—Madison)

  • Jung-Hun Seo

    (University of Wisconsin—Madison)

  • Guangfu Luo

    (University of Wisconsin—Madison)

  • Matthew B. Starr

    (University of Wisconsin—Madison)

  • Zhaodong Li

    (University of Wisconsin—Madison)

  • Dalong Geng

    (University of Wisconsin—Madison)

  • Xin Yin

    (University of Wisconsin—Madison)

  • Shaoyang Wang

    (University of Wisconsin—Madison)

  • Douglas G. Fraser

    (University of Wisconsin—Madison)

  • Dane Morgan

    (University of Wisconsin—Madison)

  • Zhenqiang Ma

    (University of Wisconsin—Madison)

  • Xudong Wang

    (University of Wisconsin—Madison)

Abstract

To date, the preparation of free-standing 2D nanomaterials has been largely limited to the exfoliation of van der Waals solids. The lack of a robust mechanism for the bottom-up synthesis of 2D nanomaterials from non-layered materials has become an obstacle to further explore the physical properties and advanced applications of 2D nanomaterials. Here we demonstrate that surfactant monolayers can serve as soft templates guiding the nucleation and growth of 2D nanomaterials in large area beyond the limitation of van der Waals solids. One- to 2-nm-thick, single-crystalline free-standing ZnO nanosheets with sizes up to tens of micrometres are synthesized at the water–air interface. In this process, the packing density of surfactant monolayers adapts to the sub-phase metal ions and guides the epitaxial growth of nanosheets. It is thus named adaptive ionic layer epitaxy (AILE). The electronic properties of ZnO nanosheets and AILE of other materials are also investigated.

Suggested Citation

  • Fei Wang & Jung-Hun Seo & Guangfu Luo & Matthew B. Starr & Zhaodong Li & Dalong Geng & Xin Yin & Shaoyang Wang & Douglas G. Fraser & Dane Morgan & Zhenqiang Ma & Xudong Wang, 2016. "Nanometre-thick single-crystalline nanosheets grown at the water–air interface," Nature Communications, Nature, vol. 7(1), pages 1-7, April.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms10444
    DOI: 10.1038/ncomms10444
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    Cited by:

    1. Jingxian Zhong & Dawei Zhou & Qi Bai & Chao Liu & Xinlian Fan & Hehe Zhang & Congzhou Li & Ran Jiang & Peiyi Zhao & Jiaxiao Yuan & Xiaojiao Li & Guixiang Zhan & Hongyu Yang & Jing Liu & Xuefen Song & , 2024. "Growth of millimeter-sized 2D metal iodide crystals induced by ion-specific preference at water-air interfaces," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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