Results in Physics (Oct 2024)
Enhancing thermoelectric performances of indium oxide through silicon incorporation
Abstract
Herein, the modification of indium oxide thermoelectric materials was carried out to investigate the effect of Si doping on the thermoelectric properties of In2O3. By precisely controlling the doping concentration of Si, a series of Si-doped In2O3 have been successfully prepared, and the thermoelectric properties have been systematically studied. The experimental results indicate that appropriate Si doping content can optimize the band structure and carrier concentration, significantly increase the electrical conductivity and power factor of In2O3, and effectively reduce the thermal conductivity, increase the thermoelectric value (ZT value) of the material with the highest value of ∼0.316 (973 K). In addition, Si doping could enhance the Vickers hardness of the material and improve the mechanical properties of the material. This study not only provides a new idea for optimizing the performances of indium oxide thermoelectric materials, but also provides a valuable reference for the development and application of thermoelectric materials.
