Thermoelectric properties and crystallographic shear structures in titanium oxides of the Magǹli phases

Abstract

The thermoelectric properties of Magǹli phase titanium oxides TinO2n-1 (n=2,3,) have been investigated, paying special attention to how the thermoelectric performance can be altered by changing the microstructure. Dense polycrystalline specimens with nominal composition of TiO2-x (x=0.05, 0.10, 0.15, and 0.20) prepared by conventional hot-pressing are all identified to be one of the Magǹli phases, in which crystallographic shear planes are regularly introduced according to the oxygen deficiency. Electrical conduction is n-type for all specimens and the carrier concentration increases with the increase in the oxygen deficiency. The values of lattice thermal conductivity, on the other hand, decrease with the increase in the oxygen deficiency, which can be attributed to phonon scattering at the crystallographic shear plane. The largest value of thermoelectric figure of merit Z, 1.6× 10-4 K-1 was obtained at 773 K for the hot-pressed specimen of TiO1.90. © 2010 American Institute of Physics.