Growth of p- and n-type bismuth telluride thin films by co-evaporation

Both n- and p-type bismuth telluride thin films have been deposited by co-evaporator on glass substrates. The conditions for deposition have been investigated as a function of substrate temperature (Ts) and flux ratio (Fr=F(Bi)/F(Te)) and optimised to achieve a high thermoelectric power factor. The quality of the deposited films, e.g. structure, composition and morphology, has been examined by X-ray diffraction (XRD), energy-dispersive X-ray analysis (EDXA), and atomic force microscope (AFM). The thermoelectric properties of the thin films have been studied by room-temperature measurement of the Seebeck coefficient, Hall coefficient and electrical resistivity. Both the crystallinity and the transport properties have been found to be strongly affected by nonstoichiometry with the highly stoichiometric samples exhibiting a high crystallinity and high thermoelectric power factor. It has been observed that the Seebeck coefficient and electrical conductivity of n-type (I±n, Iƒn) and p-type (I±p, Iƒp) bismuth telluride films were found to be about −228 I¼V/K, 0.77A—103 I©âˆ’1 cm−1 and 81 I¼V/K, 3.1A—103 I©âˆ’1 cm−1, respectively. The results indicate that the good quality bismuth telluride thin films grown by co-evaporator in both p- and n-type are promising candidates for use in micro-Peltier modules.