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首页> 外文期刊>Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics >High performance thermoelectrics from earth-abundant materials: Enhanced figure of merit in PbS through nanostructuring grain size
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High performance thermoelectrics from earth-abundant materials: Enhanced figure of merit in PbS through nanostructuring grain size

机译:富含地球的材料制成的高性能热电器件:通过纳米结构化的晶粒尺寸提高了PbS的品质因数

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As an earth abundant material, PbS, has been paid extensive attention in the thermoelectric community. The high lattice thermal conductivity of PbS indicates there is room left to further improve thermoelectric performance of PbS. In this system we aimed to reduce the lattice thermal conductivity through nanostructuring grain sizes, which was processed by mechanical alloying followed by spark plasma sintering. We found that the lattice thermal conductivity can be reduced from similar to 1.5 W m(-1) K-1 at 723 K for PbS ingot to as low as similar to 0.50 W m(-1) K-1 for the PbS with nano-scale grain sizes, as a result, a ZT value of 0.80 at 723 K was achieved for 1.0% PbCl2 doped PbS with the second phases of Bi2S3 (Sb2S3, SrS, CaS). These results indicate that PbS is a robust alternative of PbTe and PbSe for medium temperature thermoelectric applications. (C) 2015 Published by Elsevier B.V.
机译:作为一种富含地球的物质,PbS在热电领域引起了广泛关注。 PbS的高晶格热导率表明仍有空间可以进一步改善PbS的热电性能。在该系统中,我们旨在通过纳米结构化的晶粒尺寸来降低晶格的导热性,这种晶粒尺寸是通过机械合金化以及随后的火花等离子体烧结进行处理的。我们发现,晶格热导率可以从723 K的PbS铸锭降低到1.5 W m(-1)K-1,低至与PbS的0.50 W m(-1)K-1接近。结果,对于具有Bi2S3(Sb2S3,SrS,CaS)的第二相的1.0%PbCl2掺杂的PbS,在723 K下实现了ZT值为0.80。这些结果表明,PbS是中温热电应用中PbTe和PbSe的可靠替代品。 (C)2015由Elsevier B.V.发布

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