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First principles study of optical properties of molybdenum disulfide: From bulk to monolayer

Hieu, N.N. and Ilyasov, V.V. and Vu, T.V. and Poklonski, N.A. and Phuc, H.V. and Phuong, L.T.T. and Hoi, B.D. and Nguyen, C.V. (2018) First principles study of optical properties of molybdenum disulfide: From bulk to monolayer. Superlattices and Microstructures, 115. pp. 10-18. ISSN 7496036

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Abstract

In this paper, we theoretically study the optical properties of both bulk and monolayer MoS2 using first-principles calculations. The optical characters such as: dielectric function, optical reflectivity, and electron energy-loss spectrum of MoS2 are observed in the energy region from 0 to 15 eV. At equilibrium state the dielectric constant in the parallel E∥x and perpendicular E∥z directions are of 15.01 and 8.92 for bulk while they are 4.95 and 2.92 for monolayer MoS2, respectively. In the case of bulk MoS2, the obtained computational results for both real and imaginary parts of the dielectric constant are in good agreement with the previous experimental data. In the energy range from 0 to 6 eV, the dielectric functions have highly anisotropic, whereas they become isotropic when the energy is larger than 7 eV. For the adsorption spectra and optical reflectivity, both the collective plasmon resonance and (π+σ) electron plasmon peaks are observed, in which the transition in E∥x direction is accordant with the experiment data more than the transition in E∥z direction is. The refractive index, extinction index, and electron energy-loss spectrum are also investigated. The observed prominent peak at 23.1 eV in the energy-loss spectra is in good agreement with experiment value. Our results may provide a useful potential application for the MoS2 structures in electronic and optoelectronic devices. © 2018 Elsevier Ltd

Item Type: Article
Divisions: Faculties > Faculty of Mechanical Engineering
Identification Number: 10.1016/j.spmi.2018.01.012
Uncontrolled Keywords: Calculations; Dissociation; Electron energy levels; Electron energy loss spectroscopy; Energy dissipation; Layered semiconductors; Molybdenum compounds; Monolayers; Optical properties; Optoelectronic devices; Plasmons; Reflection; Refractive index; Ab initio; Computational results; Dielectric functions; Electron energy loss spectrum; First-principles calculation; First-principles study; MoS2; Optical reflectivity; Sulfur compounds
Additional Information: Language of original document: English.
URI: http://eprints.lqdtu.edu.vn/id/eprint/9586

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