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Large Thermoelectric Power Factor in TiS2 Crystal with Nearly Stoichiometric Composition

arXiv:cond-mat/0111063 · doi:10.1103/PhysRevB.64.241104

Abstract

A TiS$_{2}$ crystal with a layered structure was found to have a large thermoelectric power factor.The in-plane power factor $S^{2}/ ρ$ at 300 K is 37.1~$μ$W/K$^{2}$cm with resistivity ($ρ$) of 1.7 m$Ω$cm and thermopower ($S$) of -251~$μ$V/K, and this value is comparable to that of the best thermoelectric material, Bi$_{2}$Te$_{3}$ alloy. The electrical resistivity shows both metallic and highly anisotropic behaviors, suggesting that the electronic structure of this TiS$_{2}$ crystal has a quasi-two-dimensional nature. The large thermoelectric response can be ascribed to the large density of state just above the Fermi energy and inter-valley scattering. In spite of the large power factor, the figure of merit, $ZT$ of TiS$_{2}$ is 0.16 at 300 K, because of relatively large thermal conductivity, 68~mW/Kcm. However, most of this value comes from reducible lattice contribution. Thus, $ZT$ can be improved by reducing lattice thermal conductivity, e.g., by introducing a rattling unit into the inter-layer sites.

11 pages, 4 figures, to be published in Physical Review B