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Van der Waals nanomesh electronics on arbitrary surfaces

Author

Listed:
  • You Meng

    (City University of Hong Kong
    City University of Hong Kong)

  • Xiaocui Li

    (City University of Hong Kong
    City University of Hong Kong)

  • Xiaolin Kang

    (City University of Hong Kong)

  • Wanpeng Li

    (City University of Hong Kong)

  • Wei Wang

    (City University of Hong Kong
    City University of Hong Kong)

  • Zhengxun Lai

    (City University of Hong Kong)

  • Weijun Wang

    (City University of Hong Kong)

  • Quan Quan

    (City University of Hong Kong)

  • Xiuming Bu

    (City University of Hong Kong)

  • SenPo Yip

    (Kyushu University)

  • Pengshan Xie

    (City University of Hong Kong)

  • Dong Chen

    (City University of Hong Kong)

  • Dengji Li

    (City University of Hong Kong)

  • Fei Wang

    (Fine Mechanics and Physics, Chinese Academy of Sciences)

  • Chi-Fung Yeung

    (City University of Hong Kong)

  • Changyong Lan

    (University of Electronic Science and Technology of China)

  • Chuntai Liu

    (Key Laboratory of Advanced Materials Processing & Mold (Zhengzhou University), Ministry of Education)

  • Lifan Shen

    (Beijing University of Technology)

  • Yang Lu

    (City University of Hong Kong)

  • Furong Chen

    (City University of Hong Kong)

  • Chun-Yuen Wong

    (City University of Hong Kong
    City University of Hong Kong)

  • Johnny C. Ho

    (City University of Hong Kong
    City University of Hong Kong
    Kyushu University)

Abstract

Chemical bonds, including covalent and ionic bonds, endow semiconductors with stable electronic configurations but also impose constraints on their synthesis and lattice-mismatched heteroepitaxy. Here, the unique multi-scale van der Waals (vdWs) interactions are explored in one-dimensional tellurium (Te) systems to overcome these restrictions, enabled by the vdWs bonds between Te atomic chains and the spontaneous misfit relaxation at quasi-vdWs interfaces. Wafer-scale Te vdWs nanomeshes composed of self-welding Te nanowires are laterally vapor grown on arbitrary surfaces at a low temperature of 100 °C, bringing greater integration freedoms for enhanced device functionality and broad applicability. The prepared Te vdWs nanomeshes can be patterned at the microscale and exhibit high field-effect hole mobility of 145 cm2/Vs, ultrafast photoresponse below 3 μs in paper-based infrared photodetectors, as well as controllable electronic structure in mixed-dimensional heterojunctions. All these device metrics of Te vdWs nanomesh electronics are promising to meet emerging technological demands.

Suggested Citation

  • You Meng & Xiaocui Li & Xiaolin Kang & Wanpeng Li & Wei Wang & Zhengxun Lai & Weijun Wang & Quan Quan & Xiuming Bu & SenPo Yip & Pengshan Xie & Dong Chen & Dengji Li & Fei Wang & Chi-Fung Yeung & Chan, 2023. "Van der Waals nanomesh electronics on arbitrary surfaces," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38090-8
    DOI: 10.1038/s41467-023-38090-8
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    References listed on IDEAS

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    1. You Meng & Weijun Wang & Rong Fan & Zhengxun Lai & Wei Wang & Dengji Li & Xiaocui Li & Quan Quan & Pengshan Xie & Dong Chen & He Shao & Bowen Li & Zenghui Wu & Zhe Yang & SenPo Yip & Chun-Yuen Wong & , 2024. "An inorganic-blended p-type semiconductor with robust electrical and mechanical properties," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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