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The mechanical, electronic, optical and thermoelectric properties of two-dimensional honeycomb-like of XSb (X = Si, Ge, Sn) monolayers: a first-principles calculations

A. Bafekry, Fazel Shojai, D.M. Hoat, Masoud Shahrokhi, Mitra Ghergherehchi, Chuong V. Nguyen

2020RSC Advances41 citationsDOIOpen Access PDF

Abstract

molecular dynamic simulations and phonon dispersion calculations suggests their good thermal and dynamical stabilities. The mechanical properties of XSb monolayers shows that the monolayers are considerably softer than graphene, and their in-plane stiffness decreases from SiSb to SnSb. Our results shows that the single layers of SiSb, GeSb and SnSb are semiconductor with band gap of 1.48, 0.77 and 0.73 eV, respectively. The optical analysis illustrate that the first absorption peaks of the SiSb, GeSb and SnSb monolayers along the in-plane polarization are located in visible range of light which may serve as a promising candidate to design advanced optoelectronic devices. Thermoelectric properties of the XSb monolayers, including Seebeck coefficient, electrical conductivity, electronic thermal conductivity, power factor and figure of merit are calculated as a function of doping level at temperatures of 300 K and 800 K. Between the studied two-dimensional materials (2DM), SiSb single layer may be the most promising candidate for application in the thermoelectric generators.

Topics & Concepts

MonolayerThermoelectric effectMaterials scienceSeebeck coefficientPhononBand gapSemiconductorDirect and indirect band gapsOptoelectronicsCondensed matter physicsDopingThermal conductivityGrapheneNanotechnologyComposite materialThermodynamicsPhysics2D Materials and ApplicationsAdvanced Thermoelectric Materials and DevicesMXene and MAX Phase Materials
The mechanical, electronic, optical and thermoelectric properties of two-dimensional honeycomb-like of XSb (X = Si, Ge, Sn) monolayers: a first-principles calculations | Litcius