Optimizing thermoelectric properties of filled MPt4Ge12-xSbx skutterudites by band engineering

Abstract

On the basis of density functional theory (DFT) calculations thermoelectric properties are derived for Sb-doped skutterudites MPt4Ge12-xSbx with M=Ba,La,Th. It is predicted that the originally very small absolute values of Seebeck coefficients |S| of the undoped compounds is increased by factors of 10 or more for suitable dopings. The optimal dopings correspond to a "magic" valence electron number for which all electronic states up to a (pseudo)gap are filled. The theoretical findings are corroborated by measurements of S for LaPt4Ge12-xSbx skutterudites. DFT derived vibrational rattling-like modes for LaPt4Ge12 indicate a small value for the lattice thermal conductivity which in combination with a large value of S2 makes the La-based skutterudites appear as promising thermoelectric materials.