Bandgap-opened bilayer graphene approached by asymmetrical intercalation of trilayer graphene

Bandgap-opened bilayer graphene approached by asymmetrical intercalation of trilayer graphene

A novel graphene structure formed by asymmetrical intercalation of FeCl3 molecules into a trilayer graphene is reported. The trilayer graphene is divided into a single layer and a bilayer graphene by the inserted FeCl3 layer. Theoretical calculation shows that such graphene bilayers with broken inve...

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Main Authors: Zhan, Da, Yan, Jia Xu, Ni, Zhen Hua, Sun, Li, Lai, Lin Fei, Liu, Lei, Liu, Xiang Yang, Shen, Ze Xiang
其他作者: School of Physical and Mathematical Sciences
格式: Article
語言:English
出版: 2015
主題:
DRNTU::Science::Chemistry
在線閱讀:https://hdl.handle.net/10356/104153
http://hdl.handle.net/10220/24686
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總結:A novel graphene structure formed by asymmetrical intercalation of FeCl3 molecules into a trilayer graphene is reported. The trilayer graphene is divided into a single layer and a bilayer graphene by the inserted FeCl3 layer. Theoretical calculation shows that such graphene bilayers with broken inversion symmetry present a prominent opened bandgap of ∼0.13 eV.

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