Preparation of Twisted Bilayer Graphene via the Wetting Transfer Method

Assembling monolayers into a bilayer system unlocks the rotational free degree of van der Waals (vdW) homo/heterostructure, enabling the building of twisted bilayer graphene (tBLG) which possesses novel electronic, optical, and mechanical properties. Previous methods for preparation of homo/heterstr...

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Veröffentlicht in:	ACS applied materials & interfaces 2020-09, Vol.12 (36), p.40958-40967
Hauptverfasser:	Hou, Yuan, Ren, Xibiao, Fan, Jingcun, Wang, Guorui, Dai, Zhaohe, Jin, Chuanhong, Wang, Wenxiang, Zhu, Yinbo, Zhang, Shuai, Liu, Luqi, Zhang, Zhong
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Schlagworte:	Surfaces, Interfaces, and Applications
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container_title	ACS applied materials & interfaces
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creator	Hou, Yuan Ren, Xibiao Fan, Jingcun Wang, Guorui Dai, Zhaohe Jin, Chuanhong Wang, Wenxiang Zhu, Yinbo Zhang, Shuai Liu, Luqi Zhang, Zhong
description	Assembling monolayers into a bilayer system unlocks the rotational free degree of van der Waals (vdW) homo/heterostructure, enabling the building of twisted bilayer graphene (tBLG) which possesses novel electronic, optical, and mechanical properties. Previous methods for preparation of homo/heterstructures inevitably leave the polymer residue or hexagonal boron nitride (h-BN) mask, which usually obstructs the measurement of intrinsic mechanical and surface properties of tBLG. Undoubtedly, to fabricate the designable tBLG with clean interface and surface is necessary but challenging. Here, we propose a simple and handy method to prepare atomically clean twisted bilayer graphene with controllable twist angles based on wetting-induced delamination. This method can transfer tBLG onto a patterned substrate, which offers an excellent platform for the observation of physical phenomena such as relaxation of moiré pattern in marginally tBLG. These findings and insight should ultimately guide the designable packaging and atomic characterization of the two-dimensional (2D) materials.
doi_str_mv	10.1021/acsami.0c12000
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title	Preparation of Twisted Bilayer Graphene via the Wetting Transfer Method
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