Thermoelectric effects of amorphous Ga-Sn-O thin film

The thermoelectric effects of an amorphous Ga-Sn-O (a-GTO) thin film have been evaluated as a physical parameter of a novel oxide semiconductor. Currently, a-GTO thin films are greatly desired not only because they do not contain rare metals and are therefore free from problems on the exhaustion of resources and the increase in cost but also because their initial characteristics and performance stabilities are excellent when they are used in thin-film transistors. In this study, an a-GTO thin film was deposited on a quartz substrate by RF magnetron sputtering and postannealing was performed in air at 350 degrees C for 1 h using an annealing furnace. The Seebeck coefficient and electrical conductivity of the a-GTO thin film were - 137 mu V/K and 31.8S/cm at room temperature, and % 183 mu V/K and 43.8S/cm at 397 K, respectively, and as a result, the power factor was 1.47 mu W/(cm center dot K-2) at 397 K; these values were roughly as high as those of amorphous In-Ga-Zn-O (a-IGZO) thin films. Therefore, a-GTO thin films will be a candidate material for thermoelectric devices fabricated in a large area at a low cost by controlling the carrier mobility, carrier density, device structures, and so forth. (C) 2017 The Japan Society of Applied Physics.