Thermal conductivity suppression in ZnO with AlZn2O4and ZnP2for thermoelectric applications

Nanotechnology. 2024 Nov 25;36(6). doi: 10.1088/1361-6528/ad9158.

Abstract

In this study, intrinsic ZnO powder was sintered and intercalated with particles. The resulting powder, along with a commercial p-type product, was consolidated into bulk materials, and their thermal conductivity was measured across a temperature range of 350 K-700 K. The thermal conductivity of the commercial p-type ZnO was found to be lower than that of intrinsic ZnO, attributed to controlled doping. Notably, our demonstration illustrated that the thermal conductivity can be reduced by a factor of 5-10 in the presence of AlZn2O4and ZnP2precipitates. This methodology presents a feasible approach for the future design of ZnO-based thermoelectric materials, particularly for thermal heat scavenging applications.

Keywords: AlZn2O4 and ZnP2; ZnO; nanopowder; thermal conductivity.