The thermoelectric properties and crystallographic features of layered perovskite-type Ca-substituted (Sr1-xCax)(3)(Ti1-yNby)(2)O-7 (y=0-0.2), Ruddlesden-Popper phases were investigated. The influence of crystal structure and carrier concentration on the carrier effective mass for Ti-based metal oxides based on TiO6 octahedra and having a significant Ca substitution effect are discussed. It was found from structural analysis that the large Seebeck coefficients of Ca-substituted compounds can be attributed to the high values of carrier effective mass, which originates from the enhancement of the symmetry of the TiO6 octahedra. Low thermal conductivities, 3.6-3.8 W m(-1) K-1 at 300 K, were obtained for Ca-substituted compositions due to phonon scattering at SrO/(SrTiO3)(2) interfaces of the inherent superlattice structure and to mass-defect phonon scattering between Ca (M-Ca=40) and Sr (M-Sr=88). The highest ZT value obtained was 0.15 at 1000 K, for 10 at % Ca-substituted Sr-3(Ti0.95Nb0.05)(2)O-7. (c) 2007 American Institute of Physics.
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