Login / Signup

A boost of thermoelectric generation performance for polycrystalline InTe by texture modulation.

Jianghe FengMenghui ZhouJuan LiGuoying DongShufang GaoErbiao MinChuang ZhangJiaqing HeRong SunRuiheng Liu
Published in: Materials horizons (2023)
The new rising binary InTe displays advantageously high electronic conductivity and low thermal conductivity along the [110] direction, providing a high potential of texture modulation for thermoelectric performance improvement. In this work, coarse crystalline InTe material with a high degree of texture along the [110] direction was realized by the oriented crystal hot-deformation method. The coarse grains with high texture not only maintain the preferred orientation of the zone-melting crystal as far as possible, but also greatly depress the grain boundary scattering, thus leading to the highest room temperature power factor of 8.7 μW cm -1 K -1 and a high average figure of merit of 0.71 in the range of 300-623 K. Furthermore, the polycrystalline characteristic with refined grains also promotes the mechanical properties. As a result, an 8-couple thermoelectric generator module consisting of p-type InTe and commercial n-type Bi 2 Te 2.7 Se 0.3 legs was successfully integrated and a high conversion efficiency of ∼5.0% under the temperature difference of 290 K was achieved, which is comparable to traditional Bi 2 Te 3 based modules. This work not only demonstrates the potential of InTe as a power generator near room temperature, but also provides one more typical example of a texture modulation strategy beyond the traditional Bi 2 Te 3 thermoelectrics.
Keyphrases
  • room temperature
  • molecular dynamics simulations
  • molecular dynamics
  • magnetic resonance
  • computed tomography
  • high resolution
  • human health