Key properties of inorganic thermoelectric materials—tables (version 1)

Freer, Robert ; Ekren, Dursun ; Ghosh, Tanmoy ; Biswas, Kanishka ; Qiu, Pengfei ; Wan, Shun ; Chen, Lidong ; Han, Shen ; Fu, Chenguang ; Zhu, Tiejun ; Ashiquzzaman Shawon, A K M ; Zevalkink, Alexandra ; Imasato, Kazuki ; Snyder, G. Jeffrey ; Ozen, Melis ; Saglik, Kivanc ; Aydemir, Umut ; Cardoso-Gil, Raúl ; Svanidze, E ; Funahashi, Ryoji ; Powell, Anthony V ; Mukherjee, Shriparna ; Tippireddy, Sahil ; Vaqueiro, Paz ; Gascoin, Franck ; Kyratsi, Theodora ; Sauerschnig, Philipp ; Mori, Takao (2022) Key properties of inorganic thermoelectric materials—tables (version 1) Journal of Physics: Energy, 4 (2). 022002. ISSN 2515-7655

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Official URL: http://doi.org/10.1088/2515-7655/ac49dc

Related URL: http://dx.doi.org/10.1088/2515-7655/ac49dc

Abstract

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.

Item Type:Article
Source:Copyright of this article belongs to IOP Publishing
ID Code:128319
Deposited On:03 Nov 2022 05:57
Last Modified:03 Nov 2022 05:57

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