人工有序铋合金:生长和输运特性

Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407) Pub Date : 1999-12-01 DOI:10.1109/ICT.1999.843344

Sunglae Cho, Yunki Kim, A. DiVenere, G. Wong, A. Freeman, J. Ketterson, L. Olafsen, I. Vurgaftman, J. R. Meyer, C. Hoffman

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引用次数: 0

摘要

我们提出了一种可能实现高zt材料的新方法:人工有序合金结构。用MBE法制备了不同(Bi/Sb)周期(7.7 /spl Aring/ ~ 55 /spl Aring/)的人工有序Bi/Sb合金。研究了原子尺度的有序效应对结构和输运性质的影响。XRD超晶格卫星的存在证实了有序合金的形成。利用电阻率、热功率和磁输运测量，我们观察到了有序铋超晶格中的半金属-半导体跃迁。层状Bi-Sb结构的有意有序产生了一个新的相，相对于随机合金的电子谱的测量差异是其原子结构的结果。

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Artificially ordered BiSb alloys: growth and transport properties

We propose a new approach for potentially achieving high-ZT materials: artificially ordered alloy structures. We have prepared artificially ordered Bi/Sb alloys with different (Bi/Sb) periods from 7.7 /spl Aring/ to 55 /spl Aring/ by MBE. Atomic-scale ordering effects on the structural and transport properties have been studied. The formation of an ordered alloy was confirmed by the presence of XRD superlattice satellites. Using electrical resistivity, thermopower, and magneto-transport measurements, we have observed a semimetal-semiconductor transition in an ordered BiSb superlattice. The intentional ordering of the layered Bi-Sb structure has produced a new phase and the measured differences in the electronic spectrum relative to the random alloy are a consequence of its atomic structure.

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

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