Gate-tunable transport in van der Waals topological insulator Bi4Br4 nanobelts

Si Li Wu; Zhi Hui Ren; Yu Qi Zhang; Yong Kai Li; Jun Feng Han; Jun Xi Duan; Zhi Wei Wang; Cai Zhen Li; Yu Gui Yao

doi:10.1088/1361-648X/acc3eb

Gate-tunable transport in van der Waals topological insulator Bi₄Br₄ nanobelts

Si Li Wu, Zhi Hui Ren, Yu Qi Zhang, Yong Kai Li, Jun Feng Han, Jun Xi Duan, Zhi Wei Wang^*, Cai Zhen Li^*, Yu Gui Yao

^*Corresponding author for this work

School of Physics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Bi₄Br₄ is a quasi-one-dimensional van der Waals topological insulator with novel electronic properties. Several efforts have been devoted to the understanding of its bulk form, yet it remains a challenge to explore the transport properties in low-dimensional structures due to the difficulty of device fabrication. Here we report for the first time a gate-tunable transport in exfoliated Bi₄Br₄ nanobelts. Notable two-frequency Shubnikov-de Haas oscillations oscillations are discovered at low temperatures, with the low- and high-frequency parts coming from the three-dimensional bulk state and the two-dimensional surface state, respectively. In addition, ambipolar field effect is realized with a longitudinal resistance peak and a sign reverse in the Hall coefficient.

Original language	English
Article number	234001
Journal	Journal of Physics Condensed Matter
Volume	35
Issue number	23
DOIs	https://doi.org/10.1088/1361-648X/acc3eb
Publication status	Published - 14 Jun 2023

Keywords

BiBr
Shubnikov-de Haas oscillations
gate-tunable transport
nanobelt
quasi-one-dimensional topological insulator

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10.1088/1361-648X/acc3eb

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title = "Gate-tunable transport in van der Waals topological insulator Bi4Br4 nanobelts",

abstract = "Bi4Br4 is a quasi-one-dimensional van der Waals topological insulator with novel electronic properties. Several efforts have been devoted to the understanding of its bulk form, yet it remains a challenge to explore the transport properties in low-dimensional structures due to the difficulty of device fabrication. Here we report for the first time a gate-tunable transport in exfoliated Bi4Br4 nanobelts. Notable two-frequency Shubnikov-de Haas oscillations oscillations are discovered at low temperatures, with the low- and high-frequency parts coming from the three-dimensional bulk state and the two-dimensional surface state, respectively. In addition, ambipolar field effect is realized with a longitudinal resistance peak and a sign reverse in the Hall coefficient.",

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author = "Wu, {Si Li} and Ren, {Zhi Hui} and Zhang, {Yu Qi} and Li, {Yong Kai} and Han, {Jun Feng} and Duan, {Jun Xi} and Wang, {Zhi Wei} and Li, {Cai Zhen} and Yao, {Yu Gui}",

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doi = "10.1088/1361-648X/acc3eb",

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AU - Wu, Si Li

AU - Ren, Zhi Hui

AU - Zhang, Yu Qi

AU - Li, Yong Kai

AU - Han, Jun Feng

AU - Duan, Jun Xi

AU - Wang, Zhi Wei

AU - Li, Cai Zhen

AU - Yao, Yu Gui

PY - 2023/6/14

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N2 - Bi4Br4 is a quasi-one-dimensional van der Waals topological insulator with novel electronic properties. Several efforts have been devoted to the understanding of its bulk form, yet it remains a challenge to explore the transport properties in low-dimensional structures due to the difficulty of device fabrication. Here we report for the first time a gate-tunable transport in exfoliated Bi4Br4 nanobelts. Notable two-frequency Shubnikov-de Haas oscillations oscillations are discovered at low temperatures, with the low- and high-frequency parts coming from the three-dimensional bulk state and the two-dimensional surface state, respectively. In addition, ambipolar field effect is realized with a longitudinal resistance peak and a sign reverse in the Hall coefficient.

AB - Bi4Br4 is a quasi-one-dimensional van der Waals topological insulator with novel electronic properties. Several efforts have been devoted to the understanding of its bulk form, yet it remains a challenge to explore the transport properties in low-dimensional structures due to the difficulty of device fabrication. Here we report for the first time a gate-tunable transport in exfoliated Bi4Br4 nanobelts. Notable two-frequency Shubnikov-de Haas oscillations oscillations are discovered at low temperatures, with the low- and high-frequency parts coming from the three-dimensional bulk state and the two-dimensional surface state, respectively. In addition, ambipolar field effect is realized with a longitudinal resistance peak and a sign reverse in the Hall coefficient.

KW - BiBr

KW - Shubnikov-de Haas oscillations

KW - gate-tunable transport

KW - nanobelt

KW - quasi-one-dimensional topological insulator

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Gate-tunable transport in van der Waals topological insulator Bi₄Br₄ nanobelts

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Keywords

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