Issue 20, 2021

Emerging flat bands in large-angle twisted bi-layer graphene under pressure

Abstract

Recent experiments on magic-angle twisted bi-layer graphene have attracted intensive attention due to exotic properties such as unconventional superconductivity and correlated insulation. These phenomena were often found at a magic angle less than 1.1°. However, the preparation of precisely controlled bi-layer graphene with a small magic angle is challenging. In this work, electronic properties of large-angle twisted bi-layer graphene (TBG) under pressure are investigated with density functional theory. We demonstrate that large-angle TBG can display flat bands nearby the Fermi level under pressure, which may also induce interesting properties such as superconductivity which have only been found in small-angle TBG at ambient pressure. The Fermi velocity is found to decrease monotonously with pressure for large twisted angles, e.g., 21.8°. Our work indicates that applying pressure provides opportunities for flat-band engineering in larger angle TBG and supports further exploration in related investigations.

Graphical abstract: Emerging flat bands in large-angle twisted bi-layer graphene under pressure

Supplementary files

Article information

Article type
Paper
Submitted
13 Jan 2021
Accepted
18 Apr 2021
First published
27 Apr 2021

Nanoscale, 2021,13, 9264-9269

Emerging flat bands in large-angle twisted bi-layer graphene under pressure

L. Ge, K. Ni, X. Wu, Z. Fu, Y. Lu and Y. Zhu, Nanoscale, 2021, 13, 9264 DOI: 10.1039/D1NR00220A

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