低维热电结构用层状(IV-VI)-(V-VI)材料

Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407) Pub Date : 1999-08-29 DOI:10.1109/ICT.1999.843483

J. Nurnus, H. Bottner, H. Beyer, A. Lambrecht

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引用次数: 5

摘要

(IV-VI)-(V-VI)纳米结构是一种新型体系，既可用于降低导热性，又可用于MQW结构以提高导电性。我们报告了第一步:利用分子束外延技术在碲化铋/碲化铅材料体系中生长IV-VI和V-VI。碲化铋层是用元素源生长的，PbTe和PbSe可以用二元化合物生长。在[111]-氟化钡衬底上外延生长了n-PbTe和n-PbSe以及n-碲化铋层。[111]-氟化钡可能是最适合IV-VI和v - vi材料的衬底，因为它的晶格错配较小。iv - vi -初始层被n-碲化铋覆盖，而v - vi -初始层被PbTe或PbSe覆盖。我们报告了由AFM, ECP, SEM和SIMS分析的生长特性，取决于不同的生长条件，如衬底温度和层厚度。本文从晶体结构和碲化铋/碲化铅的三元相图两方面讨论了从生长样品和退火过程中得到的结果。

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Layered (IV-VI)-(V-VI)-materials for low dimensional thermoelectric structures

(IV-VI)-(V-VI) nanostructures are new systems, which could be used both for the reduction of thermal conductivity and for MQW structures to enhance electrical conductivity. We report on both first steps: IV-VI on V-VI and V-VI on IV-VI growth in the bismuth telluride/lead telluride material system using molecular beam epitaxy. Bismuth telluride layers were grown using element sources, PbTe and PbSe can be grown using the binary compounds. n-PbTe and n-PbSe as well as n-bismuth telluride layers were grown epitaxially on [111]-barium fluoride-substrates. [111]-barium fluoride is probably the best suited substrate for both IV-VI and V-VI-materials due to its small lattice mismatch. The IV-VI-initial-layers were overgrown with n-bismuth telluride, while the V-VI-initial-layers were overgrown with PbTe or PbSe. We report on growth characteristics analysed by AFM, ECP, SEM and SIMS, depending on various growth conditions like substrate temperature and layer thickness. The results taken from as grown samples and after annealing procedures are discussed with respect to the crystal structures accordingly and the ternary phase diagram of bismuth telluride/lead telluride.

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来源期刊

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

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