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High pressure effect on structure, electronic structure and thermoelectric properties of MoS$_2$

We systematically study the effect of high pressure on the structure, electronic structure and transport properties of 2H-MoS$_2$, based on first-principles density functional calculations and the Boltzmann transport theory. Our calculation shows a vanishing anisotropy in the rate of structural change at around 25 GPa, in agreement with the experimental data. A conversion from van der Waals(vdW) to covalent-like bonding is seen. Concurrently, a transition from semiconductor to metal occurs at 25 GPa from band structure calculation. Our transport calculations also find pressure-enhanced electrical conductivities and significant values of the thermoelectric figure of merit over a wide temperature range. Our study supplies a new route to improve the thermoelectric performance of MoS$_2$ and of other transition metal dichalcogenides by applying hydrostatic pressure.

preprint2012arXivOpen access
Huaihong GuoTeng YangPeng TaoYong WangZhidong Zhang
cond-mat.mtrl-sci
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Huaihong GuoTeng YangPeng TaoYong WangZhidong Zhang

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