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Epitaxial growth of inch-scale single-crystal transition metal dichalcogenides through the patching of unidirectionally orientated ribbons

Author

Listed:
  • Pengfei Yang

    (Peking University)

  • Dashuai Wang

    (Tsinghua University)

  • Xiaoxu Zhao

    (Peking University
    Nanyang Technological University)

  • Wenzhi Quan

    (Peking University)

  • Qi Jiang

    (Chinese Academy of Sciences)

  • Xuan Li

    (Peking University
    Peking University)

  • Bin Tang

    (Peking University
    Peking University)

  • Jingyi Hu

    (Peking University)

  • Lijie Zhu

    (Peking University)

  • Shuangyuan Pan

    (Peking University)

  • Yuping Shi

    (Peking University)

  • Yahuan Huan

    (Peking University)

  • Fangfang Cui

    (Peking University)

  • Shan Qiao

    (Chinese Academy of Sciences)

  • Qing Chen

    (Peking University
    Peking University)

  • Zheng Liu

    (Nanyang Technological University)

  • Xiaolong Zou

    (Tsinghua University)

  • Yanfeng Zhang

    (Peking University)

Abstract

Two-dimensional (2D) semiconductors, especially transition metal dichalcogenides (TMDs), have been envisioned as promising candidates in extending Moore’s law. To achieve this, the controllable growth of wafer-scale TMDs single crystals or periodic single-crystal patterns are fundamental issues. Herein, we present a universal route for synthesizing arrays of unidirectionally orientated monolayer TMDs ribbons (e.g., MoS2, WS2, MoSe2, WSe2, MoSxSe2-x), by using the step edges of high-miller-index Au facets as templates. Density functional theory calculations regarding the growth kinetics of specific edges have been performed to reveal the morphological transition from triangular domains to patterned ribbons. More intriguingly, we find that, the uniformly aligned TMDs ribbons can merge into single-crystal films through a one-dimensional edge epitaxial growth mode. This work hereby puts forward an alternative pathway for the direct synthesis of inch-scale uniform monolayer TMDs single-crystals or patterned ribbons, which should promote their applications as channel materials in high-performance electronics or other fields.

Suggested Citation

  • Pengfei Yang & Dashuai Wang & Xiaoxu Zhao & Wenzhi Quan & Qi Jiang & Xuan Li & Bin Tang & Jingyi Hu & Lijie Zhu & Shuangyuan Pan & Yuping Shi & Yahuan Huan & Fangfang Cui & Shan Qiao & Qing Chen & Zhe, 2022. "Epitaxial growth of inch-scale single-crystal transition metal dichalcogenides through the patching of unidirectionally orientated ribbons," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-30900-9
    DOI: 10.1038/s41467-022-30900-9
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    References listed on IDEAS

    as
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    2. Jun Zhou & Guitao Zhang & Wenhui Wang & Qian Chen & Weiwei Zhao & Hongwei Liu & Bei Zhao & Zhenhua Ni & Junpeng Lu, 2024. "Phase-engineered synthesis of atomically thin te single crystals with high on-state currents," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    3. Xufan Li & Samuel Wyss & Emanuil Yanev & Qing-Jie Li & Shuang Wu & Yongwen Sun & Raymond R. Unocic & Joseph Stage & Matthew Strasbourg & Lucas M. Sassi & Yingxin Zhu & Ju Li & Yang Yang & James Hone &, 2024. "Width-dependent continuous growth of atomically thin quantum nanoribbons from nanoalloy seeds in chalcogen vapor," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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