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Out-of-plane strain and electric field tunable electronic properties and Schottky contact of graphene/antimonene heterostructure

Phuc, H.V. and Hieu, N.N. and Hoi, B.D. and Phuong, L.T.T. and Hieu, N.V. and Nguyen, C.V. (2017) Out-of-plane strain and electric field tunable electronic properties and Schottky contact of graphene/antimonene heterostructure. Superlattices and Microstructures, 112. pp. 554-560. ISSN 7496036

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Abstract

In this paper, the electronic properties of graphene/monolayer antimonene (G/m-Sb) heterostructure have been studied using the density functional theory (DFT). The effects of out-of-plane strain (interlayer coupling) and electric field on the electronic properties and Schottky contact of the G/m-Sb heterostructure are also investigated. The results show that graphene is bound to m-Sb layer by a weak van-der-Waals interaction with the interlayer distance of 3.50 Å and the binding energy per carbon atom of −39.62 meV. We find that the n-type Schottky contact is formed at the G/m-Sb heterostructure with the Schottky barrier height (SBH) of 0.60 eV. By varying the interlayer distance between graphene and the m-Sb layer we can change the n-type and p-type SBH at the G/m-Sb heterostructure. Especially, we find the transformation from n-type to p-type Schottky contact with decreasing the interlayer distance. Furthermore, the SBH and the Schottky contact could be controlled by applying the perpendicular electric field. With the positive electric field, electrons can easily transfer from m-Sb to graphene layer, leading to the transition from n-type to p-type Schottky contact. © 2017 Elsevier Ltd

Item Type: Article
Divisions: Faculties > Faculty of Mechanical Engineering
Identification Number: 10.1016/j.spmi.2017.10.011
Uncontrolled Keywords: Antimony compounds; Binding energy; Carbon; Density functional theory; Electric fields; Electronic properties; Schottky barrier diodes; Semiconductor metal boundaries; Strain; Van der Waals forces; Antimonene; DFT calculation; Electronic properties of graphene; Interlayer coupling; Schottky barrier heights; Schottky contacts; Tunable electronic properties; Van Der Waals interactions; Graphene
Additional Information: Language of original document: English.
URI: http://eprints.lqdtu.edu.vn/id/eprint/9671

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