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Atomically engineering interlayer symmetry operations of two-dimensional crystals

Author

Listed:
  • Ziyi Han

    (Peking University
    Tianjin University)

  • Shengqiang Wu

    (Peking University)

  • Chun Huang

    (Beijing Institute of Technology)

  • Fengyuan Xuan

    (Suzhou Laboratory)

  • Xiaocang Han

    (Peking University)

  • Yinfeng Long

    (Shanghai JiaoTong University)

  • Qing Zhang

    (Tianjin University
    Collaborative Innovation Center of Chemical Science and Engineering (Tianjin)
    Beijing National Laboratory for Molecular Sciences)

  • Junxian Li

    (Peking University)

  • Yuan Meng

    (Peking University)

  • Lin Wang

    (Shanghai JiaoTong University)

  • Jiahuan Zhou

    (Peking University)

  • Wenping Hu

    (Tianjin University
    Collaborative Innovation Center of Chemical Science and Engineering (Tianjin))

  • Jingsi Qiao

    (Beijing Institute of Technology)

  • Dechao Geng

    (Tianjin University
    Collaborative Innovation Center of Chemical Science and Engineering (Tianjin)
    Beijing National Laboratory for Molecular Sciences)

  • Xiaoxu Zhao

    (Peking University)

Abstract

Crystal symmetry, which governs the local atomic coordination and bonding environment, is one of the paramount constituents that intrinsically dictate materials’ functionalities. However, engineering crystal symmetry is not straightforward due to the isotropically strong covalent/ionic bonds in crystals. Layered two-dimensional materials offer an ideal platform for crystal engineering because of the ease of interlayer symmetry operations. However, controlling the crystal symmetry remains challenging due to the ease of gliding perpendicular to the Z direction. Herein, we proposed a substrate-guided growth mechanism to atomically fabricate AB′-stacked SnSe2 superlattices, containing alternating SnSe2 slabs with periodic interlayer mirror and gliding symmetry operations, by chemical vapor deposition. Some higher-order phases such as 6 R, 12 R, and 18 C can be accessed, exhibiting modulated nonlinear optical responses suggested by first-principle calculations. Charge transfer from mica substrates stabilizes the high-order SnSe2 phases. Our approach shows a promising strategy for realizing topological phases via stackingtronics.

Suggested Citation

  • Ziyi Han & Shengqiang Wu & Chun Huang & Fengyuan Xuan & Xiaocang Han & Yinfeng Long & Qing Zhang & Junxian Li & Yuan Meng & Lin Wang & Jiahuan Zhou & Wenping Hu & Jingsi Qiao & Dechao Geng & Xiaoxu Zh, 2024. "Atomically engineering interlayer symmetry operations of two-dimensional crystals," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-55130-z
    DOI: 10.1038/s41467-024-55130-z
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