Effect of nanostructure on thermoelectric properties of La0.7Sr0.3MnO3 in 300-600 K range

Abstract

In oxide materials, nanostructuring effect has been found very promising approach for the enhancement of figure-of-merit, ZT. In the present work, we have synthesized La0.7Sr0.3MnO3 (LSMO) compound using sol-gel method and samples of crystallite size of 34, 41, and 49 nm were obtained by giving different heat treatment. Seebeck coefficient (α), electrical resistivity (), and thermal conductivity () measurements were carried out in 300-600 K temperature range. The systematic change in the values of α from -19 μV/K to -24 μV/K and drastic reduction in the values of from 0.88 W/mK to 0.23 W/mK are observed as crystallite size is reduced from 49 nm to 34 nm at 600 K. Also, fall in the values of in the paramagnetic (PM) insulator phase (400-600 K) are effectively responsible for the increasing trend in the values of ZT at high temperature. For the crystallite size of 41 nm, value of ZT at 600 K was found to be 0.017, which can be further increased up to 0.045 around 650 K temperature. The predicted value of ZT suggests that LSMO can be suitable oxide material for thermoelectric applications at high temperature.