TShermoelectric properties of the hale-heusler compound (Zr, Hf) (Ni, Pd)Sn

机译：霍尔-休斯勒化合物（Zr，Hf）（Ni，Pd）Sn的热电性质

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Recent measurements of the thermoelectric transport properties of a series of the half-Heusler compound ZrNiSn are presented. These materials are known to be bandgap intermetallic compounds with reliatively large Seebeck coefficients and semimetallic to semiconducting transport properties. This makes them attractive for study as potential candidates for thermoelectric applications. In this study, trends in the thermoelectric power, electrical conductivity and thermal conductivity are examined as a function of chemical substitution on the various fcc sub-lattices that comprise the half-Heusler crystal structure. These results suggest that the lattice contribution to the thermal conductivity may be reduced by increasing the phonon scattering via chemical substitution. The effects of these substitutions on the overall power factor and figure-of-merit will also be discussed.

机译：提出了一系列的半霍斯勒化合物ZrNiSn的热电输运性质的最新测量。已知这些材料是带隙金属间化合物，具有相对较大的塞贝克系数，并且具有半金属到半导体的传输特性。这使其成为热电应用的潜在候选者对于研究具有吸引力。在这项研究中，根据构成半赫斯勒晶体结构的各种fcc子晶格上化学取代的函数，研究了热电功率，电导率和热导率的趋势。这些结果表明，通过化学取代增加声子散射，可以降低晶格对热导率的贡献。这些替代对整体功率因数和品质因数的影响也将进行讨论。

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《Symposium on Thermoelectric Materials 1998-The Next Generation Materials for Small-Scale Refigeration and Power Generation Applications held November 30-December 3, 1998, Boston, Massachusetts, U.S.A.》|1998年|p.403-412|共10页
会议地点 Boston MA(US)
作者
V.M.Browning; S.J.Poon; T.M.Tritt; A.L.Pope; S.Bhattacharya; P.Volkov; J.G.Song; V.Ponnambalam; A.C.Ehrlich;
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4. TShermoelectric properties of the hale-heusler compound (Zr, Hf) (Ni, Pd)Sn [C] . V.M.Browning, S.J.Poon, T.M.Tritt, Symosium on thermoelectric materials - the next generation materials for small-scale refrigeration and power generation applications . 1999

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TShermoelectric properties of the hale-heusler compound (Zr, Hf) (Ni, Pd)Sn

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