The Mg2Si-based alloys are promising candidates for thermoelectric energy conversion for the middle-high range of temperature. They are very attractive as they could replace lead-based compounds due to their low cost, non-toxicity [1, 2] and low density. They could also result in thermoelectric generator weight reduction (a key-feature for the automotive application field [3, 4]). The high value of thermal conductivity of the silicide-based materials could be reduced by increasing the phonon scattering in the presence of nanosized crystalline grains. This does not heavily interfere with the electrical conductivity of the thermoelectric material [5-6].
Synthesis and Characterization of Bi-doped Mg2Si Thermoelectric Materials
Fiameni S;Boldrini S;Battiston S;Agresti F;Famengo A;Barison S;Fabrizio M
2012
Abstract
The Mg2Si-based alloys are promising candidates for thermoelectric energy conversion for the middle-high range of temperature. They are very attractive as they could replace lead-based compounds due to their low cost, non-toxicity [1, 2] and low density. They could also result in thermoelectric generator weight reduction (a key-feature for the automotive application field [3, 4]). The high value of thermal conductivity of the silicide-based materials could be reduced by increasing the phonon scattering in the presence of nanosized crystalline grains. This does not heavily interfere with the electrical conductivity of the thermoelectric material [5-6].| File | Dimensione | Formato | |
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Descrizione: Synthesis and characterization of Bi-doped Mg2Si thermoelectric materials
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