Tunable Interband Transitions in Twisted h-BN/Graphene Heterostructures

In twisted h-BN/graphene heterostructures, the complex electronic properties of the fast-traveling electron gas in graphene are usually considered to be fully revealed. However, the randomly twisted heterostructures may also have unexpected transition behaviors, which may influence the device perfor...

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Bibliographic Details
Published in:arXiv.org 2022-08
Main Authors: Liu, Bingyao, Yu-Tian, Zhang, Qiao, Ruixi, Shi, Ruochen, Li, Yuehui, Guo, Quanlin, Li, Jiade, Li, Xiaomei, Wang, Li, Qi, Jiajie, Du, Shixuan, Ren, Xinguo, Liu, Kaihui, Gao, Peng, Yu-Yang, Zhang
Format: Article
Language:English
Subjects:
Brillouin zones
Coupling
Electron energy loss spectroscopy
Electron gas
Graphene
Heterostructures
Red shift
Online Access:Get full text
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Summary:In twisted h-BN/graphene heterostructures, the complex electronic properties of the fast-traveling electron gas in graphene are usually considered to be fully revealed. However, the randomly twisted heterostructures may also have unexpected transition behaviors, which may influence the device performance. Here, we study the twist angle-dependent coupling effects of h-BN/graphene heterostructures using monochromatic electron energy loss spectroscopy. We find that the moiré potentials alter the band structure of graphene, resulting in a redshift of the intralayer transition at the M-point, which becomes more pronounced up to 0.25 eV with increasing twist angle. Furthermore, the twisting of the Brillouin zone of h-BN relative to the graphene M-point leads to tunable vertical transition energies in the range of 5.1-5.6 eV. Our findings indicate that twist-coupling effects of van der Waals heterostructures should be carefully considered in device fabrications, and the continuously tunable interband transitions through the twist angle can serve as a new degree of freedom to design optoelectrical devices.
ISSN:2331-8422
DOI:10.48550/arxiv.2208.14846