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Electronic properties of GaSe/MoS2 and GaS/MoSe2 heterojunctions from first principles calculations

Pham, K.D. and Phuc, H.V. and Hieu, N.N. and Hoi, B.D. and Nguyen, C.V. (2018) Electronic properties of GaSe/MoS2 and GaS/MoSe2 heterojunctions from first principles calculations. AIP Advances, 8 (7): 75207. ISSN 21583226

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Abstract

In this work, we theoretically investigate electronic properties of GaSeMoS2 and GaSMoSe2 heterojunctions using density functional theory based on first-principles calculations. The results show that both GaSeMoS2 and GaSMoSe2 heterojunctions are characterized by the weak vdW interactions with a corresponding interlayer distance of 3.45 Å and 3.54 Å, and the binding energy of -0.16 eV per GaSeGaS cell. Furthermore, one can observe that both the GaSeMoS2, and GaSMoSe2 heterojunctions are found to be indirect band gap semiconductors with a corresponding band gap of 1.91 eV and 1.23 eV, respectively. We also find that the band gaps of these semiconductors belong to type II band alignment. A type-II band alignment in both GaSeMoS2 and GaSMoSe2 heterojunctions open their potential applications as novel materials such as in designing and fabricating new generation of photovoltaic and optoelectronic devices. © 2018 Author(s).

Item Type: Article
Divisions: Faculties > Faculty of Mechanical Engineering
Identification Number: 10.1063/1.5033348
Uncontrolled Keywords: Binding energy; Calculations; Electronic properties; Energy gap; Gallium compounds; Heterojunctions; Layered semiconductors; Optoelectronic devices; Van der Waals forces; First-principles calculation; Indirect band gap; Interlayer distance; Novel materials; Photovoltaic; Type II band alignments; Density functional theory
Additional Information: Language of original document: English. All Open Access, Gold.
URI: http://eprints.lqdtu.edu.vn/id/eprint/9552

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