Efficient p-n junction-based thermoelectric generator that can operate at extreme temperature conditions

In many industrial processes, a large proportion of energy is lost in the form of heat. Thermoelectric generators can convert this waste heat into electricity by means of the Seebeck effect. However, the use of thermoelectric generators in practical applications on an industrial scale is limited in...

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Veröffentlicht in:	Journal of physics. D, Applied physics Applied physics, 2018-01, Vol.51 (1), p.14005
Hauptverfasser:	Chavez, Ruben, Angst, Sebastian, Hall, Joseph, Maculewicz, Franziska, Stoetzel, Julia, Wiggers, Hartmut, Thanh Hung, Le, Van Nong, Ngo, Pryds, Nini, Span, Gerhard, Wolf, Dietrich E, Schmechel, Roland, Schierning, Gabi
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Sprache:	eng
Schlagworte:	nanocrystalline silicon thermoelectric generator thermoelectrics
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container_title	Journal of physics. D, Applied physics
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creator	Chavez, Ruben Angst, Sebastian Hall, Joseph Maculewicz, Franziska Stoetzel, Julia Wiggers, Hartmut Thanh Hung, Le Van Nong, Ngo Pryds, Nini Span, Gerhard Wolf, Dietrich E Schmechel, Roland Schierning, Gabi
description	In many industrial processes, a large proportion of energy is lost in the form of heat. Thermoelectric generators can convert this waste heat into electricity by means of the Seebeck effect. However, the use of thermoelectric generators in practical applications on an industrial scale is limited in part because electrical, thermal, and mechanical bonding contacts between the semiconductor materials and the metal electrodes in current designs are not capable of withstanding thermal-mechanical stress and alloying of the metal-semiconductor interface when exposed to the high temperatures occurring in many real-world applications. Here we demonstrate a concept for thermoelectric generators that can address this issue by replacing the metallization and electrode bonding on the hot side of the device by a p-n junction between the two semiconductor materials, making the device robust against temperature induced failure. In our proof-of-principle demonstration, a p-n junction device made from nanocrystalline silicon is at least comparable in its efficiency and power output to conventional devices of the same material and fabrication process, but with the advantage of sustaining high hot side temperatures and oxidative atmosphere.
doi_str_mv	10.1088/1361-6463/aa9b6a
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subjects	nanocrystalline silicon thermoelectric generator thermoelectrics
title	Efficient p-n junction-based thermoelectric generator that can operate at extreme temperature conditions
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