Transport properties of CuxCo4Sb11.7Te0.3 prepared by solid-state reaction

IF 1.7 4区 材料科学 Q2 MATERIALS SCIENCE, CERAMICS
B. K. Qin, Y. H. Ji, Z. L. Bai, R. Huang, J. Z. Zhang
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引用次数: 0

Abstract

The Skutterudite compounds have been extensively studied worldwide over the past several years for their potential advanced thermoelectric applications in the intermediate temperature range. However, most methods for synthesis of CoSb3 materials require a long-duration heating process and complex equipments. In this study, a simple solid-state reaction method was used to prepare copper-tellurium co-doped CoSb3 ( CuxCo4Sb11.7Te0.3, x = 0-0.4) bulk thermoelectric materials. The obtained samples show enhanced thermoelectric properties compared to Cu-undoped sample. Especially in the case of Cu-doped CoSb3, the compound Cu0.4Co4Sb11.7Te0.3 exhibits a maximal Seebeck coefficient of 234.2 µVK− 1 at 617 K, the sample Cu0.1Co4Sb11.7Te0.3 reaches a power factor of 2012.35 mWm− 1 K− 2 at 715.7 K. Moreover, phonon scattering appears to be enhanced due to the significant reduction in grain size of the samples prepared by the solid-state reaction method, resulting in a minimum thermal conductivity of 1.67 Wm− 1 K− 1. A dimensionless figure of merit (ZT) of 0.68 was obtained for Cu0.3Co4Sb11.7Te0.3 at 716 K. Thus, the solid-state reaction method is a feasible strategy for the preparation of Skutterudite thermoelectric materials.

Abstract Image

固相反应制备CuxCo4Sb11.7Te0.3的输运性质
在过去的几年中,由于其在中温范围内具有潜在的先进热电应用前景,在世界范围内进行了广泛的研究。然而,大多数合成CoSb3材料的方法需要长时间的加热过程和复杂的设备。本研究采用简单的固相反应法制备了铜碲共掺杂CoSb3 (CuxCo4Sb11.7Te0.3, x = 0-0.4)块状热电材料。与未掺杂cu的样品相比,所得样品的热电性能有所提高。特别是在cu掺杂CoSb3的情况下,化合物Cu0.4Co4Sb11.7Te0.3在617 K时的塞贝克系数最大,为234.2µVK−1,样品Cu0.1Co4Sb11.7Te0.3在715.7 K时的功率因数达到2012.35 mWm−1 K−2。此外,由于固体反应制备的样品晶粒尺寸显著减小,声子散射增强,导致导热系数最小为1.67 Wm−1 K−1。在716 K下,Cu0.3Co4Sb11.7Te0.3的无因次优值(ZT)为0.68。因此,固相反应法是制备方硅矿热电材料的可行策略。
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来源期刊
Journal of Electroceramics
Journal of Electroceramics 工程技术-材料科学:硅酸盐
CiteScore
2.80
自引率
5.90%
发文量
22
审稿时长
5.7 months
期刊介绍: While ceramics have traditionally been admired for their mechanical, chemical and thermal stability, their unique electrical, optical and magnetic properties have become of increasing importance in many key technologies including communications, energy conversion and storage, electronics and automation. Electroceramics benefit greatly from their versatility in properties including: -insulating to metallic and fast ion conductivity -piezo-, ferro-, and pyro-electricity -electro- and nonlinear optical properties -feromagnetism. When combined with thermal, mechanical, and chemical stability, these properties often render them the materials of choice. The Journal of Electroceramics is dedicated to providing a forum of discussion cutting across issues in electrical, optical, and magnetic ceramics. Driven by the need for miniaturization, cost, and enhanced functionality, the field of electroceramics is growing rapidly in many new directions. The Journal encourages discussions of resultant trends concerning silicon-electroceramic integration, nanotechnology, ceramic-polymer composites, grain boundary and defect engineering, etc.
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