Electric field tunable bandgap in twisted double trilayer graphene

IF 9.1 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY npj 2D Materials and Applications Pub Date : 2024-02-27 DOI:10.1038/s41699-024-00449-w
Mickael L. Perrin, Anooja Jayaraj, Bhaskar Ghawri, Kenji Watanabe, Takashi Taniguchi, Daniele Passerone, Michel Calame, Jian Zhang
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Abstract

Twisted van der Waals heterostructures have recently emerged as a versatile platform for engineering interaction-driven, topological phenomena with a high degree of control and tunability. Since the initial discovery of correlated phases in twisted bilayer graphene, a wide range of moiré materials have emerged with fascinating electronic properties. While the field of twistronics has rapidly evolved and now includes a range of multi-layered systems, moiré systems comprised of double trilayer graphene remain elusive. Here, we report electrical transport measurements combined with tight-binding calculations in twisted double trilayer graphene (TDTLG). We demonstrate that small-angle TDTLG (~1.7−2.0∘) exhibits an intrinsic bandgap at the charge neutrality point. Moreover, by tuning the displacement field, we observe a continuous insulator-semimetal-insulator transition at the CNP, which is also captured by tight-binding calculations. These results establish TDTLG systems as a highly tunable platform for further exploration of magneto-transport and optoelectronic properties.

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扭曲双三层石墨烯中的电场可调带隙
扭曲范德瓦尔斯异质结构近来已成为一个多功能平台,可用于设计具有高度可控性和可调性的相互作用驱动的拓扑现象。自最初在扭曲双层石墨烯中发现相关相以来,出现了一系列具有迷人电子特性的摩尔材料。虽然扭曲电子学领域发展迅速,目前已包括一系列多层系统,但由双三层石墨烯组成的摩尔系统仍然难以捉摸。在此,我们报告了结合紧密结合计算的扭曲双三层石墨烯(TDTLG)电输运测量结果。我们证明,小角度 TDTLG(~1.7-2.0∘)在电荷中性点处表现出内在带隙。此外,通过调整位移场,我们在 CNP 处观察到连续的绝缘体-半金属-绝缘体转变,紧密结合计算也捕捉到了这一转变。这些结果确立了 TDTLG 系统作为进一步探索磁传输和光电特性的高度可调平台的地位。
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来源期刊
npj 2D Materials and Applications
npj 2D Materials and Applications Engineering-Mechanics of Materials
CiteScore
14.50
自引率
2.10%
发文量
80
审稿时长
15 weeks
期刊介绍: npj 2D Materials and Applications publishes papers on the fundamental behavior, synthesis, properties and applications of existing and emerging 2D materials. By selecting papers with the potential for impact, the journal aims to facilitate the transfer of the research of 2D materials into wide-ranging applications.
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