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This study introduces a novel method using sublimable compounds to create hierarchical structures in NbFeSb half-Heusler alloys. This significantly reduces thermal conductivity while enhancing mechanical and thermoelectric performance.

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Area of Science:

  • Materials Science
  • Solid State Physics
  • Thermoelectrics

Background:

  • NbFeSb-based half-Heusler alloys possess good electrical and mechanical properties but are limited by high lattice thermal conductivity.
  • Reducing thermal conductivity in these alloys is challenging due to high-temperature processing requirements for complex microstructures.

Purpose of the Study:

  • To develop a method for creating hierarchical microstructures in NbFeSb alloys to reduce thermal conductivity.
  • To investigate the impact of these microstructures on thermoelectric and mechanical properties.

Main Methods:

  • Incorporation of PbI2 during ball-milling of Nb0.8Ti0.2FeSb.
  • Sublimation of PbI2 during high-temperature sintering to form hierarchical structures.
  • Characterization of microstructures, thermal conductivity, electrical conductivity, power factor, and mechanical properties.

Main Results:

  • Hierarchical structures including PbI2 nanophases, core-shell pore@Pb structures, multiscale porosity, and Fe vacancies were formed.
  • Lattice thermal conductivity was reduced by 32% to 3.34 W m-1 K-1 at 973 K due to full-spectrum phonon scattering and lattice softening.
  • Power factor reached 52.7 µW cm-1 K-2 (zT ~ 1) with improved electrical conductivity.
  • Compressive strength increased by 38% to 1132 MPa, and microhardness reached 950 HV.

Conclusions:

  • Sublimable compounds effectively create hierarchical architectures in high-temperature thermoelectrics.
  • This approach simultaneously enhances thermoelectric efficiency and mechanical robustness.
  • The developed method offers a pathway for advanced thermoelectric materials.