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Wafer-scale and universal van der Waals metal semiconductor contact

Author

Listed:
  • Lingan Kong

    (Hunan University)

  • Ruixia Wu

    (Hunan University
    Hunan University)

  • Yang Chen

    (Hunan University)

  • Ying Huangfu

    (Hunan University)

  • Liting Liu

    (Hunan University)

  • Wei Li

    (Hunan University)

  • Donglin Lu

    (Hunan University)

  • Quanyang Tao

    (Hunan University)

  • Wenjing Song

    (Hunan University)

  • Wanying Li

    (Hunan University)

  • Zheyi Lu

    (Hunan University)

  • Xiao Liu

    (Hunan University)

  • Yunxin Li

    (Hunan University)

  • Zhiwei Li

    (Hunan University)

  • Wei Tong

    (Hunan University)

  • Shuimei Ding

    (Hunan University)

  • Songlong Liu

    (Hunan University)

  • Likuan Ma

    (Hunan University)

  • Liwang Ren

    (Hunan University)

  • Yiliu Wang

    (Hunan University)

  • Lei Liao

    (Hunan University)

  • Xidong Duan

    (Hunan University)

  • Yuan Liu

    (Hunan University)

Abstract

Van der Waals (vdW) metallic contacts have been demonstrated as a promising approach to reduce the contact resistance and minimize the Fermi level pinning at the interface of two-dimensional (2D) semiconductors. However, only a limited number of metals can be mechanically peeled and laminated to fabricate vdW contacts, and the required manual transfer process is not scalable. Here, we report a wafer-scale and universal vdW metal integration strategy readily applicable to a wide range of metals and semiconductors. By utilizing a thermally decomposable polymer as the buffer layer, different metals were directly deposited without damaging the underlying 2D semiconductor channels. The polymer buffer could be dry-removed through thermal annealing. With this technique, various metals could be vdW integrated as the contact of 2D transistors, including Ag, Al, Ti, Cr, Ni, Cu, Co, Au, Pd. Finally, we demonstrate that this vdW integration strategy can be extended to bulk semiconductors with reduced Fermi level pinning effect.

Suggested Citation

  • Lingan Kong & Ruixia Wu & Yang Chen & Ying Huangfu & Liting Liu & Wei Li & Donglin Lu & Quanyang Tao & Wenjing Song & Wanying Li & Zheyi Lu & Xiao Liu & Yunxin Li & Zhiwei Li & Wei Tong & Shuimei Ding, 2023. "Wafer-scale and universal van der Waals metal semiconductor contact," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36715-6
    DOI: 10.1038/s41467-023-36715-6
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    References listed on IDEAS

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    2. Xingchao Zhang & Lanying Zhou & Shuopei Wang & Tong Li & Hongyue Du & Yuchao Zhou & Jieying Liu & Jiaojiao Zhao & Liangfeng Huang & Hua Yu & Peng Chen & Na Li & Guangyu Zhang, 2025. "Se-mediated dry transfer of wafer-scale 2D semiconductors for advanced electronics," Nature Communications, Nature, vol. 16(1), pages 1-8, December.
    3. Yangshuang Bian & Mingliang Zhu & Chengyu Wang & Kai Liu & Wenkang Shi & Zhiheng Zhu & Mingcong Qin & Fan Zhang & Zhiyuan Zhao & Hanlin Wang & Yunqi Liu & Yunlong Guo, 2024. "A detachable interface for stable low-voltage stretchable transistor arrays and high-resolution X-ray imaging," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    4. Xiaodong Zhang & Chenxi Huang & Zeyu Li & Jun Fu & Jiaran Tian & Zhuping Ouyang & Yuliang Yang & Xiang Shao & Yulei Han & Zhenhua Qiao & Hualing Zeng, 2024. "Reliable wafer-scale integration of two-dimensional materials and metal electrodes with van der Waals contacts," Nature Communications, Nature, vol. 15(1), pages 1-9, December.

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