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• W2020758892 startingPage "40" @default.
• W2020758892 abstract "The uni-axial and bi-axial mechanical strain mediated electronic band structures and dielectric properties of silicene have been investigated. It is found that on applying uni- and bi-axial strains, the band gap opens for smaller strain in silicene. However, on further increase of strain beyond 8% silicene changed into metal. The ultimate tensile strength estimated is 3.4 GPa. Imaginary part of dielectric function shows that the inter-band transitions are red-shifted for uni- and bi-axial tensile strains and are blue shifted for uni- and bi-axial compressive strains. Electron energy loss (EEL) function shows that the π+σ plasmon energies are red-shifted for uni- and bi-axial strains and blue-shifted for compressive strains. The π plasmons disappears for tensile and asymmetric strains. Bi-axial asymmetric strain is found to have no influence on inter-band transitions and π+σ plasmon energies." @default.
• W2020758892 created "2016-06-24" @default.
• W2020758892 creator A5029353019 @default.
• W2020758892 creator A5077263025 @default.
• W2020758892 creator A5091699152 @default.
• W2020758892 date "2014-07-01" @default.
• W2020758892 modified "2023-10-01" @default.
• W2020758892 title "Electronic and optical properties of silicene under uni-axial and bi-axial mechanical strains: A first principle study" @default.
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• W2020758892 doi "https://doi.org/10.1016/j.physe.2014.03.013" @default.
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