Insights into low thermal conductivity in inorganic materials for thermoelectrics
Efficient manipulation of thermal conductivity and fundamental understanding of the
microscopic mechanisms of phonon scattering in crystalline solids are crucial to achieve …
microscopic mechanisms of phonon scattering in crystalline solids are crucial to achieve …
Compromise and synergy in high‐efficiency thermoelectric materials
The past two decades have witnessed the rapid growth of thermoelectric (TE) research.
Novel concepts and paradigms are described here that have emerged, targeting superior TE …
Novel concepts and paradigms are described here that have emerged, targeting superior TE …
High Thermoelectric Performance in Phonon‐Glass Electron‐Crystal Like AgSbTe2
Achieving glass‐like ultra‐low thermal conductivity in crystalline solids with high electrical
conductivity, a crucial requirement for high‐performance thermoelectrics, continues to be a …
conductivity, a crucial requirement for high‐performance thermoelectrics, continues to be a …
Charge‐induced disorder controls the thermal conductivity of entropy‐stabilized oxides
Manipulating a crystalline material's configurational entropy through the introduction of
unique atomic species can produce novel materials with desirable mechanical and electrical …
unique atomic species can produce novel materials with desirable mechanical and electrical …
Chalcogenide thermoelectrics empowered by an unconventional bonding mechanism
Thermoelectric materials have attracted significant research interest in recent decades due
to their promising application potential in interconverting heat and electricity. Unfortunately …
to their promising application potential in interconverting heat and electricity. Unfortunately …
High‐Performance AgSbTe2 Thermoelectrics: Advances, Challenges, and Perspectives
Environmental‐friendless and high‐performance thermoelectrics play a significant role in
exploring sustainable clean energy. Among them, AgSbTe2 thermoelectrics, benefiting from …
exploring sustainable clean energy. Among them, AgSbTe2 thermoelectrics, benefiting from …
Vacancy controlled nanoscale cation ordering leads to high thermoelectric performance
High thermoelectric performance is generally achieved in solid-solution alloyed or heavily
doped semiconductors. The consequent atomic disorder has a trade-off in the thermoelectric …
doped semiconductors. The consequent atomic disorder has a trade-off in the thermoelectric …