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Modification of electronic structure and thermoelectric properties of hole-doped tungsten dichalcogenides

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arxiv 1502.05466 v1 pith:2MNOYSKI submitted 2015-02-19 cond-mat.mtrl-sci cond-mat.str-el

Modification of electronic structure and thermoelectric properties of hole-doped tungsten dichalcogenides

classification cond-mat.mtrl-sci cond-mat.str-el
keywords electronicpointstructuregammaintroductionmeasurementsmodificationsmaller
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present a study on the modification of the electronic structure and hole-doping effect for the layered dichalcogenide WSe_2 with a multi-valley band structure, where Ta is doped on the W site along with a partial substitution of Te for its lighter counterpart Se. By means of band-structure calculations and specific-heat measurements, the introduction of Te is theoretically and experimentally found to change the electronic states in WSe_2. While in WSe_2 the valence-band maximum is located at the Gamma point, the introduction of Te raises the bands at the K point with respect to the Gamma point. In addition, thermal-transport measurements reveal a smaller thermal conductivity at room temperature of W_1-xTa_xSe_1.6Te_0.4 than reported for W_1-xTa_xSe_2. However, when approaching 900 K, the thermal conductivities of both systems converge while the resistivity in W_1-xTa_xSe_1.6Te_0.4 is larger than in W_1-xTa_xSe_2, leading to comparable but slightly smaller values of the figure of merit in W_1-xTa_xSe_1.6Te_0.4.

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