Charting lattice thermal conductivity for inorganic crystals and discovering rare earth chalcogenides for thermoelectrics
Thermoelectric power generation represents a promising approach to utilize waste heat. The most effective thermoelectric materials exhibit low thermal conductivity κ. However, less than 5% out of about 105 synthesized inorganic materials are documented with their κ values, while for the remaining 95...
Main Authors: | Zhu, Taishan (Author), He, Ran (Author), Gong, Sheng (Author), Xie, Tian (Author), Gorai, Prashun (Author), Nielsch, Kornelius (Author), Grossman, Jeffrey C. (Author) |
---|---|
Other Authors: | Massachusetts Institute of Technology. Department of Materials Science and Engineering (Contributor) |
Format: | Article |
Language: | English |
Published: |
Royal Society of Chemistry (RSC),
2021-10-04T18:02:45Z.
|
Subjects: | |
Online Access: | Get fulltext |
Similar Items
-
High‐Pressure‐Sintering‐Induced Microstructural Engineering for an Ultimate Phonon Scattering of Thermoelectric Half‐Heusler Compounds
by: He, Ran, et al.
Published: (2022) -
Thermoelectric properties of rare-earth lead selenide alloys and lead chalcogenide nanocomposites
by: Thiagarajan, Suraj Joottu
Published: (2007) -
Mechanisms of Enhanced Thermoelectricity in Chalcogenides
by: Alsaleh, Najebah
Published: (2018) -
Revisiting some chalcogenides for thermoelectricity
by: Antoine Maignan, Emmanuel Guilmeau, Franck Gascoin, Yohann Bréard and Vincent Hardy
Published: (2012-01-01) -
Structure and Lattice Dynamics of Copper- and Silver-based Superionic Conducting Chalcogenides
by: Trots, Dmytro M.
Published: (2007)