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Milli-Tesla quantization enabled by tuneable Coulomb screening in large-angle twisted graphene

Author

Listed:
  • I. Babich

    (National University of Singapore
    National University of Singapore)

  • I. Reznikov

    (National University of Singapore
    National University of Singapore)

  • I. Begichev

    (National University of Singapore
    National University of Singapore)

  • A. E. Kazantsev

    (University of Manchester)

  • S. Slizovskiy

    (University of Manchester
    University of Manchester)

  • D. Baranov

    (National University of Singapore)

  • M. Šiškins

    (National University of Singapore)

  • Z. Zhan

    (Imdea Nanoscience)

  • P. A. Pantaleon

    (Imdea Nanoscience)

  • M. Trushin

    (National University of Singapore
    National University of Singapore)

  • J. Zhao

    (National University of Singapore)

  • S. Grebenchuk

    (National University of Singapore)

  • K. S. Novoselov

    (National University of Singapore
    National University of Singapore)

  • K. Watanabe

    (National Institute for Material Science)

  • T. Taniguchi

    (National Institute for Material Science)

  • V. I. Fal’ko

    (University of Manchester
    University of Manchester)

  • A. Principi

    (University of Manchester)

  • A. I. Berdyugin

    (National University of Singapore
    National University of Singapore)

Abstract

The electronic quality of graphene has improved significantly over the past two decades, revealing novel phenomena. However, even state-of-the-art devices exhibit substantial spatial charge fluctuations originating from charged defects inside the encapsulating crystals, limiting their performance. Here, we overcome this issue by assembling devices in which graphene is encapsulated by other graphene layers while remaining electronically decoupled from them via a large twist angle (~10–30°). Doping of the encapsulating graphene layer introduces strong Coulomb screening, maximized by the sub-nanometer distance between the layers, and reduces the inhomogeneity in the adjacent layer to just a few carriers per square micrometre. The enhanced quality manifests in Landau quantization emerging at magnetic fields as low as ~5 milli-Tesla and enables resolution of a small energy gap at the Dirac point. Our encapsulation approach can be extended to other two-dimensional systems, enabling further exploration of the electronic properties of ultrapure devices.

Suggested Citation

  • I. Babich & I. Reznikov & I. Begichev & A. E. Kazantsev & S. Slizovskiy & D. Baranov & M. Šiškins & Z. Zhan & P. A. Pantaleon & M. Trushin & J. Zhao & S. Grebenchuk & K. S. Novoselov & K. Watanabe & T, 2025. "Milli-Tesla quantization enabled by tuneable Coulomb screening in large-angle twisted graphene," Nature Communications, Nature, vol. 16(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62492-5
    DOI: 10.1038/s41467-025-62492-5
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    References listed on IDEAS

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