Current Applied Physics, Vol.17, No.10, 1264-1270, 2017
Enhancing the electrical conductivity and thermoelectric figure of merit of the p-type delafossite CuAlO2 by Ag2O addition
(CuAlO2)(1-x)(Ag2O)(x) specimens with 0 < x < 0.06 were prepared through the sintering of mixtures of CuO, Al2O3 and Ag2O powders at 1373 K. Hall effect, Seebeck coefficient and electrical conductivity measurements were subsequently employed to assess the electrical transport properties. The electrical conductivity of the as -sintered samples was found to increase with Ag2O addition as a result of increases in the carrier density. Over the temperature range of 323-623 K, the transport properties can be attributed to thermally activated transitions from the acceptor state to the valence band. In contrast, the variable range hopping theory is applicable over the temperature range of 623-873 K. Ag2O addition evidently reduces the defect binding energy in the electronic structure of the CuAlO2. The addition of this compound also obstructs the formation of both a spinel phase and CuO, such that the oxygen offstoichiometry value and the carrier density are increased with increasing Ag2O levels. The presence of Ag metal has the main effect on thermal conductivity below 400 K, while above 400 K increases in the phonon concentration affect the conductivity. The highest value obtained for the figure of merit was 0.0044 at 573 K, from a sample containing 0.2 at.% Ag2O. (C) 2017 Elsevier B.V. All rights reserved.
Keywords:Figure of merit;Delafossite CuAlO2;Electrical conductivity;Oxygen off-stoichiometry;Thermal conductivity