This paper is directed at the fabrication and optical characterization of anisotropic semidconductor composites with improved thermoelectric properties, Specifically, the quest is to dramatically improve the thermoelectric figure of merit ZT, with an emphasis on the effects of 'nanoconfinement', and on the crystallographic properties which provide an increase in the electrical-to-thermal conductivity ratio. Current work entails the fabrication of force-oriented nanstructural confinement of Bismuth (Bi) and Bismuth-Telluride (Bi2Te3)
Dense semiconductor-insulator nanocomposites for navy thermoelectric applications
Erhöhung des thermoelektrischen Wirkungsgrades ZT durch kraftorientiertes Kristallwachstum im Nanometerbereich bei Bi und Bi2Te3-Werkstoffen
1996
2 Seiten, 6 Quellen
Conference paper
English
Thermoelektrizität , thermoelektrische Kühlung , Thermosäule , Thermoelement , Thermospannung , Energieumwandlung , Wirkungsgrad , Kristallographie , Tunneleffekt , Gasphasenabscheidung , metallorganische Gasphasenabscheidung , metallorganische Gasphasenepitaxie , Niederdruckgasphasenabscheidung , Kristallorientierung , Kristallgitter , Wismutlegierung , Tellurverbindung , nanokristalliner Werkstoff
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