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چکیده
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In this paper the effect of biaxial and uniaxial strain on the mobility of single-layer MoS2
for temperatures T > 100 K is investigated. Scattering from intrinsic phonon modes,
remote phonon and charged impurities are considered along with static screening. Ab initio
simulations are utilized to investigate the strain induced effects on the electronic bandstructure
and the linearized Boltzmann transport equation is used to evaluate the low-field mobility
under various strain conditions. The results indicate that the mobility increases with tensile
biaxial and tensile uniaxial strain along the armchair direction. Under compressive strain,
however, the mobility exhibits a non-monotonic behavior when the strain magnitude is varied.
In particular, with a relatively small compressive strain of 1% the mobility is reduced by about
a factor of two compared to the unstrained condition, but with a larger compressive strain the
mobility partly recovers such a degradation.
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