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Growth of bilayer MoTe2 single crystals with strong non-linear Hall effect

Author

Listed:
  • Teng Ma

    (National University of Singapore
    Hong Kong Polytechnic University, Hung Hom)

  • Hao Chen

    (National University of Singapore
    National University of Singapore)

  • Kunihiro Yananose

    (Seoul National University)

  • Xin Zhou

    (National University of Singapore)

  • Lin Wang

    (National University of Singapore)

  • Runlai Li

    (National University of Singapore)

  • Ziyu Zhu

    (National University of Singapore)

  • Zhenyue Wu

    (National University of Singapore)

  • Qing-Hua Xu

    (National University of Singapore)

  • Jaejun Yu

    (Seoul National University)

  • Cheng Wei Qiu

    (National University of Singapore)

  • Alessandro Stroppa

    (University of L’Aquila)

  • Kian Ping Loh

    (National University of Singapore
    Hong Kong Polytechnic University, Hung Hom
    National University of Singapore)

Abstract

The reduced symmetry in strong spin-orbit coupling materials such as transition metal ditellurides (TMDTs) gives rise to non-trivial topology, unique spin texture, and large charge-to-spin conversion efficiencies. Bilayer TMDTs are non-centrosymmetric and have unique topological properties compared to monolayer or trilayer, but a controllable way to prepare bilayer MoTe2 crystal has not been achieved to date. Herein, we achieve the layer-by-layer growth of large-area bilayer and trilayer 1T′ MoTe2 single crystals and centimetre-scale films by a two-stage chemical vapor deposition process. The as-grown bilayer MoTe2 shows out-of-plane ferroelectric polarization, whereas the monolayer and trilayer crystals are non-polar. In addition, we observed large in-plane nonlinear Hall (NLH) effect for the bilayer and trilayer Td phase MoTe2 under time reversal-symmetric conditions, while these vanish for thicker layers. For a fixed input current, bilayer Td MoTe2 produces the largest second harmonic output voltage among the thicker crystals tested. Our work therefore highlights the importance of thickness-dependent Berry curvature effects in TMDTs that are underscored by the ability to grow thickness-precise layers.

Suggested Citation

  • Teng Ma & Hao Chen & Kunihiro Yananose & Xin Zhou & Lin Wang & Runlai Li & Ziyu Zhu & Zhenyue Wu & Qing-Hua Xu & Jaejun Yu & Cheng Wei Qiu & Alessandro Stroppa & Kian Ping Loh, 2022. "Growth of bilayer MoTe2 single crystals with strong non-linear Hall effect," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-33201-3
    DOI: 10.1038/s41467-022-33201-3
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    Cited by:

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    2. James L. Hart & Lopa Bhatt & Yanbing Zhu & Myung-Geun Han & Elisabeth Bianco & Shunran Li & David J. Hynek & John A. Schneeloch & Yu Tao & Despina Louca & Peijun Guo & Yimei Zhu & Felipe Jornada & Eva, 2023. "Emergent layer stacking arrangements in c-axis confined MoTe2," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    3. Chao Chang & Xiaowen Zhang & Weixuan Li & Quanlin Guo & Zuo Feng & Chen Huang & Yunlong Ren & Yingying Cai & Xu Zhou & Jinhuan Wang & Zhilie Tang & Feng Ding & Wenya Wei & Kaihui Liu & Xiaozhi Xu, 2024. "Remote epitaxy of single-crystal rhombohedral WS2 bilayers," Nature Communications, Nature, vol. 15(1), pages 1-7, December.
    4. Xiu Fang Lu & Cheng-Ping Zhang & Naizhou Wang & Dan Zhao & Xin Zhou & Weibo Gao & Xian Hui Chen & K. T. Law & Kian Ping Loh, 2024. "Nonlinear transport and radio frequency rectification in BiTeBr at room temperature," Nature Communications, Nature, vol. 15(1), pages 1-9, December.

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