Title :
Half-Heusler phases as prospective p-type thermoelectric materials
Author :
Ponnambalam, V. ; Xia, Y. ; Bhattacharya, S. ; Pope, A.L. ; Poon, S.J. ; Tritt, T.M.
Author_Institution :
Dept. of Phys., Virginia Univ., Charlottesville, VA, USA
Abstract :
It is well known that most of the half-Heuslers with potential thermoelectric properties are n-type due to electron domination in the transport. However, p-type half-Heusler alloys can be prepared by appropriate combination of elements. These alloys are multi-component and exhibit resistivity values 1000-3000 μΩ cm and thermopower values hundreds of μV/K. Such values are typical for state-of-the-art thermoelectric materials and the power factor S2σ can be in the range of 10-15 μW cm-1 K-2 at room temperature. In addition to the high power factors, low thermal conductivities are expected due to the presence of heavy elements. We have studied a series of such alloys and the details are presented in this paper.
Keywords :
antimony alloys; cobalt alloys; hafnium alloys; platinum alloys; thermal conductivity; thermoelectric power; tin alloys; titanium alloys; zirconium alloys; (Zr0.65Hf0.35)(Co0.65Pt0.35)(Sb0.65Sn0.35); TiCoSb; Zr(Co0.65Pt0.35)(Sb0.65Sn0.35); ZrCoSb; half-Heusler phases; p-type thermoelectric materials; resistivity; thermal conductivities; thermopower; Bismuth; Conducting materials; Electrons; Energy conversion; Physics; Reactive power; Thermal conductivity; Thermal factors; Thermoelectricity; Tin alloys;
Conference_Titel :
Thermoelectrics, 2005. ICT 2005. 24th International Conference on
Print_ISBN :
0-7803-9552-2
DOI :
10.1109/ICT.2005.1519965
