CoSb/ sub3 /纳米线的电沉积

Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407) Pub Date : 1999-08-29 DOI:10.1109/ICT.1999.843428

J. Behnke, A. Prieto, A. Stacy, T. Sands

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引用次数: 1

摘要

具有角钨矿晶体结构的材料，如CoSb/sub 3/，已被证明在开发高品质系数热电材料方面具有很大的前景。理论研究表明，量子限制可能会提高质量系数。基于Kubakaddi模型的纳米线热功率计算表明，与Bi/sub 2/Te/sub 3/等其他候选材料相比，CoSb/sub 3/纳米线在更大的线径下可以产生这种增强。本研究采用脉冲镀后退火的方法，在柠檬酸盐液中电化学制备CoSb/ sub3 /。最初的尝试还包括将钴和锑沉积到多孔阳极氧化铝基体中。多孔阳极氧化铝之所以被选为宿主材料，是因为其相对均匀的孔径和间距、垂直壁的“试管”形状，以及氧化铝提供的高穿隧阻隔性。

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Electrodeposition of CoSb/sub 3/ nanowires

Materials with the skutterudite crystal structure, such as CoSb/sub 3/, have been demonstrated to be promising in the development of high figure-of-merit thermoelectric materials. Theoretical studies have shown that quantum confinement may produce enhancements in the figure-of-merit. Calculations based on the Kubakaddi model for thermopower of a nanowire have shown that nanowires of CoSb/sub 3/ should produce this enhancement at larger wire diameters than other candidate materials, such as Bi/sub 2/Te/sub 3/. This study has used pulse plating followed by a post anneal treatment to fabricate CoSb/sub 3/ electrochemically from a citrate bath. Initial attempts were also made to deposit cobalt and antimony into a porous anodic aluminum oxide matrix. Porous anodic aluminum oxide was chosen as a host material because of its relatively uniform pore diameter and spacing, its vertical walled "test tube" shape, and the high barrier to tunneling that the aluminum oxide provides.

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Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407)

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