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Solid-State Janus Nanoprecipitation Enables Amorphous-Like Heat Conduction in Crystalline Mg 3 Sb 2 -Based Thermoelectric Materials.

Ionara Regina PizzuttiZhijia HanAnna ElsukovaYongbin ZhuPeng QinFeng JiangJun LuPer Ola Åke PerssonJustinas PalisaitisArnaud le FebvrierWenqing ZhangOana Cojocaru-MirédinYuan YuPer EklundWei-Shu Liu
Published in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2022)
Solid-state precipitation can be used to tailor material properties, ranging from ferromagnets and catalysts to mechanical strengthening and energy storage. Thermoelectric properties can be modified by precipitation to enhance phonon scattering while retaining charge-carrier transmission. Here, unconventional Janus-type nanoprecipitates are uncovered in Mg 3 Sb 1.5 Bi 0.5 formed by side-by-side Bi- and Ge-rich appendages, in contrast to separate nanoprecipitate formation. These Janus nanoprecipitates result from local comelting of Bi and Ge during sintering, enabling an amorphous-like lattice thermal conductivity. A precipitate size effect on phonon scattering is observed due to the balance between alloy-disorder and nanoprecipitate scattering. The thermoelectric figure-of-merit ZT reaches 0.6 near room temperature and 1.6 at 773 K. The Janus nanoprecipitation can be introduced into other materials and may act as a general property-tailoring mechanism.
Keyphrases
  • solid state
  • room temperature
  • ionic liquid
  • magnetic resonance
  • heat stress
  • monte carlo
  • highly efficient
  • computed tomography
  • contrast enhanced
  • solar cells