Attaining reduced lattice thermal conductivity and enhanced electrical conductivity in as-sintered pure n-type Bi2Te3 alloy

被引:0
|
作者
Xiao-yu Wang
Hui-juan Wang
Bo Xiang
Hong-jing Shang
Bin Zhu
Yuan Yu
Hui Jin
Run-fei Zhao
Zhong-yue Huang
Lan-jun Liu
Fang-qiu Zu
Zhi-gang Chen
机构
[1] Hefei University of Technology,Liquid/Solid Metal Processing Institute, School of Materials Science and Engineering
[2] University of Science and Technology of China,Experimental Centre of Engineering and Material Sciences
[3] Key Laboratory of Advanced Functional Materials and Devices of Anhui Province,Institute of Electrical Engineering
[4] Chinese Academy of Sciences,Centre for Future Materials
[5] University of Southern Queensland,Materials Engineering
[6] The University of Queensland,undefined
来源
Journal of Materials Science | 2019年 / 54卷
关键词
Bi 2Te 3; Bi2Te3 Alloys; Bipolar Effect; Nanograins; Spark Plasma Sintering (SPS);
D O I
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中图分类号
学科分类号
摘要
Undoped n-type Bi2Te3 bulks were prepared via the liquid state manipulation (LSM) with subsequent ball milling and spark plasma sintering processes. The sample with LSM obtains higher carrier concentration and larger effective mass compared with that without LSM, exhibiting favourable electrical transport properties. More importantly, a much reduced lattice thermal conductivity ~ 0.47 W m−1 K−1 (decreased by 43%) is obtained, due to the enhanced multiscale phonon scattering from hierarchical microstructures, including boundaries, nanograins and lattice dislocations. Additionally, due to the increased carrier concentration and enlarged band gap, the bipolar effect is effectively suppressed in sample BT-LSM. Consequently, zTmax ~ 0.66 is achieved in the sample with LSM at higher temperature of 475 K, almost 22% improvement compared with that of the contrast.
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页码:4788 / 4797
页数:9
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