外延PbSrTe和PbSrSe块体薄膜和MQW薄膜的热电性能

Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407) Pub Date : 1999-08-29 DOI:10.1109/ICT.1999.843480

H. Beyer, A. Lambrecht, J. Nurnus, H. Bottner, H. Griessmann, A. Heinrich, L. Schmitt, M. Blumers, F. Volklein

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引用次数: 4

摘要

Harman等人(1997)最近报道了二维PbTe/Pb/sub - 1-x/Eu/sub -x/ Te多量子阱(MQW)结构中热电性能ZT增强的实验证据。为了验证这些基本概念，研究了基于锶三元铅硫属化合物Pb/sub - 1-x/Sr/sub -x/ Se和Pb/sub - 1-x/Sr/sub -x/ Te的mqw结构。PbSe/Pb/sub - 1-x/Sr/sub -x/ Se MQW已成功用于铅盐激光二极管。我们在新切割的BaF/ sub2 /上制备了Pb/sub - 1-x/Sr/sub -x/ Se和Pb/sub - 1-x/Sr/sub -x/ Te外延薄膜(111)。用纯铋掺杂可以得到载流子浓度在10/sup 18/ ~ 10/sup 20/ cm/sup -3/之间的n型薄膜。XRD和AFM测试表明，这些薄膜具有较高的结构质量。PbSrTe的表面粗糙度甚至小于PbTe。报告了电导率和热功率的温度相关测量。块状pbte薄膜的热电数据与Harman给出的值吻合较好。对于mqw薄膜，XRD和AFM分析表明其结构非常完美。PbTe/Pb/sub - 1-x/Sr/sub -x/ Te-和PbSe/Pb/sub - 1-x/Sr/sub -x/ Se-MQW结构的输运性质根据Harman方法进行了评估，并选择了堆叠井层和垒层并联。这两种评估方法都在不同类型的MQW结构和掺杂谱上进行了测试，结果表明，当井厚小于3 nm时，功率因数有所提高。此外，还首次给出了IV-VI MQW结构的导热系数数据。

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Thermoelectric properties of epitaxial PbSrTe and PbSrSe bulk and MQW thin films

Experimental evidence for an enhancement of the thermoelectric figure of merit ZT in 2D PbTe/Pb/sub 1-x/Eu/sub x/Te multiple-quantum-well (MQW)-structures was recently reported by Harman et al. (1997). To verify these basic concepts MQW-structures based on the Sr-ternary lead chalcogenides Pb/sub 1-x/Sr/sub x/Se and Pb/sub 1-x/Sr/sub x/Te were investigated. PbSe/Pb/sub 1-x/Sr/sub x/Se MQW have been successfully used for lead salt laser diodes. We present properties of bulk Pb/sub 1-x/Sr/sub x/Se and Pb/sub 1-x/Sr/sub x/Te epitaxial films grown by MBE on freshly cleaved BaF/sub 2/(111). N-type films with carrier concentrations between 10/sup 18/ and 10/sup 20/ cm/sup -3/ can be easily obtained by doping with pure bismuth. XRD and AFM measurements show a high structural quality of these films. The surface roughness of PbSrTe is even less than that of PbTe. Temperature dependent measurements of electrical conductivity and thermopower are reported. The thermoelectrical data of bulk PbTe-films agree well with values given by Harman. For MQW-films XRD and AFM analysis indicate high structural perfection. Measurements of transport properties of PbTe/Pb/sub 1-x/Sr/sub x/Te- and PbSe/Pb/sub 1-x/Sr/sub x/Se-MQW structures were evaluated according to Harman and alternatively with stacked well and barrier layers connected in parallel. Both evaluation methods were performed on different types of MQW structures and doping profiles and yield an enhancement in the power factor for a well thickness less than 3 nm. Additionally first thermal conductivity data on IV-VI MQW structures are presented.

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

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