P. B. Thakor scite author profile

In the present work, Janus monolayers WSSe and WSTe are investigated by combining first-principles calculations and semiclassical Boltzmann transport theory. Janus WSSe and WSTe monolayers show a direct band gap of 1.72 and 1.84 eV at K-points, respectively. These layered materials have an extraordinary Seebeck coefficient and electrical conductivity. This combination of high Seebeck coefficient and high electrical conductivity leads to a significantly large power factor. In addition, the lattice thermal conductivity in the Janus monolayer is found to be relatively very low as compared to the WS 2 monolayer. This leads to a high figure of merit (ZT) value of 2.56 at higher temperatures for the Janus WSTe monolayer. We propose that the Janus WSTe monolayer could be used as a potential thermoelectric material due to its high thermoelectric performance. The result suggests that the Janus monolayer is a better candidate for excellent thermoelectric conversion.

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Length, width and roughness dependent thermal conductivity of graphene nanoribbons

Sonvane

Gupta

Raval

et al. 2015

Chemical Physics Letters

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Structural properties of some liquid transition metals

Thakor

Sonvane

Jani

2011

Physics and Chemistry of Liquids

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Bulk and monolayer As2S3 as promising thermoelectric material with high conversion performance

Patel

Singh

Sonvane

et al. 2020

Computational Materials Science

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MgF 2 monolayer as an anti-reflecting material

Mahida

Singh

Sonvane

et al. 2017

Solid State Communications

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P. B. Thakor

High Thermoelectric Performance in Two-Dimensional Janus Monolayer Material WS-X (X = Se and Te)

Length, width and roughness dependent thermal conductivity of graphene nanoribbons

Structural properties of some liquid transition metals

Bulk and monolayer As2S3 as promising thermoelectric material with high conversion performance

MgF 2 monolayer as an anti-reflecting material

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