用化学方法制造纳米工程的角闪石

Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407) Pub Date : 1999-08-29 DOI:10.1109/ICT.1999.843410

M. Toprak, Yu Zhang, M. Muhammed, A. Zakhidov, R. Baughman, I. Khayrullin

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引用次数: 7

摘要

原子尺度材料设计为开发具有显著改进的性能系数(ZT)的热电材料提供了机会。使用小粒度也可能增加ZT，因为可能增加电导率与导热率的比率和热功率。介绍了一种制备多组分热电金属合金纳米微细粉末的新化学途径。不同的组分同时从水溶液中析出，从而提供具有精确所需组成和均匀分子尺度混合的前驱体。前驱体的热处理包括在空气中煅烧和氢还原。在350 ~ 550℃/spl℃的温度下热处理3 ~ 5 h，制得相纯度较高的CoSb/sub - 3/纳米晶方毛石。用该方法制备了Co/sub - 1-x/Ni/sub -x/ Sb/sub - 3/高达x=0.25的高纯度掺镍滑石。

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Chemical route to nano-engineered skutterudites

Atomic scale material design provides opportunities for developing thermoelectric materials with significantly improved figures of merit (ZT). The use of small particle size may also increase ZT, because of possible increases in the ratio of electrical conductivity to thermal conductivity and the thermopower. A novel chemical route is described for fabricating multi-component thermoelectric metal alloys as fine nanostructured powders. The different constituents are simultaneously precipitated from aqueous solution-thereby providing a precursor having a precise desired composition and uniform molecular scale mixing. Thermal treatment of the precursor included calcination in air and reduction by hydrogen. Nanophase skutterudite of CoSb/sub 3/ in reasonably high phase purity was thereby produced after thermal treatments at a temperature of 350-550/spl deg/C for only 3-5 hrs. High purity Ni-doped skutterudites of Co/sub 1-x/Ni/sub x/Sb/sub 3/ up to x=0.25 were also produced using this route.

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

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