TY - JOUR
T1 - Key properties of inorganic thermoelectric materials—tables (version 1)
AU - Freer, Robert
AU - Ekren, Dursun
AU - Ghosh, Tanmoy
AU - Biswas, Kanishka
AU - Qiu, Pengfei
AU - Wan, Shun
AU - Chen, Lidong
AU - Han, Shen
AU - Fu, Chenguang
AU - Zhu, Tiejun
AU - Ashiquzzaman Shawon, A K M
AU - Zevalkink, Alexandra
AU - Imasato, Kazuki
AU - Snyder, G. Jeffrey
AU - Ozen, Melis
AU - Saglik, Kivanc
AU - Aydemir, Umut
AU - Cardoso-gil, Raúl
AU - Svanidze, E
AU - Funahashi, Ryoji
AU - Powell, Anthony V
AU - Mukherjee, Shriparna
AU - Tippireddy, Sahil
AU - Vaqueiro, Paz
AU - Gascoin, Franck
AU - Kyratsi, Theodora
AU - Sauerschnig, Philipp
AU - Mori, Takao
PY - 2022/3/22
Y1 - 2022/3/22
N2 - This paper presents tables of key thermoelectric properties, which define thermoelectric conversion efficiency, for a wide range of inorganic materials. The twelve families of materials included in these tables are primarily selected on the basis of well established, internationally-recognized performance and promise for current and future applications: tellurides, skutterudites, half Heuslers, Zintls, Mg–Sb antimonides, clathrates, FeGa3-type materials, actinides and lanthanides, oxides, sulfides, selenides, silicides, borides and carbides. As thermoelectric properties vary with temperature, data are presented at room temperature to enable ready comparison, and also at a higher temperature appropriate to peak performance. An individual table of data and commentary are provided for each family of materials plus source references for all the data.
AB - This paper presents tables of key thermoelectric properties, which define thermoelectric conversion efficiency, for a wide range of inorganic materials. The twelve families of materials included in these tables are primarily selected on the basis of well established, internationally-recognized performance and promise for current and future applications: tellurides, skutterudites, half Heuslers, Zintls, Mg–Sb antimonides, clathrates, FeGa3-type materials, actinides and lanthanides, oxides, sulfides, selenides, silicides, borides and carbides. As thermoelectric properties vary with temperature, data are presented at room temperature to enable ready comparison, and also at a higher temperature appropriate to peak performance. An individual table of data and commentary are provided for each family of materials plus source references for all the data.
U2 - 10.1088/2515-7655/ac49dc
DO - 10.1088/2515-7655/ac49dc
M3 - Article
SN - 2515-7655
VL - 4
JO - Journal of Physics: Energy
JF - Journal of Physics: Energy
IS - 2
M1 - 022002
ER -