Enhanced thermoelectric performance of PbTe bulk materials with figure of merit zT 2 by multi-functional alloying

TiezhengFu; XianqiangYue; HaijunWu; ChenguangFu; TiejunZhu; XiaohuaLiu; LipengHu; PingjunYing; JiaqingHe; XinbingZhao

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Enhanced thermoelectric performance of PbTe bulk materials with figure of merit zT 2 by multi-functional alloying

机译：通过多功能合金化提高品质因数zT> 2的PbTe块状材料的热电性能

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Forming solid solutions in PbTe based materials can simultaneously reduce lattice thermal conductivity and engineer the band structure to enhance the electrical properties. In this paper, quaternary alloys of Pb_1?xMg_xTe_0.8Se_0.2 were designed to improve the figure of merit zT. The significant roles of MgTe in enhancing electrical properties and reducing thermal conductivity of PbTe_0.8Se_0.2 were investigated. A maximum zT of ～2.2?at 820?K was achieved in PbTe_0.8Se_0.2 with 8% MgTe. Subsequently, a large dimension bulk (～200?g, Φ42?mm?×?18?mm) was fabricated and its homogeneity and the repeatability of high zT values were determined. The results show that high zT ～2.0 can also be achieved even in such a large sample. These results highlight the multi-functional roles of quaternary alloying with Mg and Se, and demonstrate the realistic prospect of large-scale commercial fabrication in high performance PbTe-based thermoelectric materials.

机译：在基于PbTe的材料中形成固溶体可同时降低晶格热导率并设计能带结构以增强电性能。本文研究了Pb _{1？ x Mg _{x Te _{0.8 的四元合金Se _{0.2 用于改善品质因数 zT 。研究了MgTe在增强PbTe _{0.8 Se _{0.2 的电性能和降低其热导率中的重要作用。在含8％MgTe的PbTe _{0.8 Se _{0.2 中，在820？K时达到的最大 zT 为〜2.2?。随后，制造了大尺寸的块体（〜200？g，Φ 42？mm？×？18？mm），其均质性和高 zT 值的可重复性为决心。结果表明，即使在如此大的样本中，也可以实现 zT 〜2.0。这些结果凸显了与Mg和Se进行季铵合金化的多功能作用，并证明了高性能PbTe基热电材料大规模商业化生产的现实前景。}}}}}}}} 展开▼

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《Journal of Materiomics》 |2016年第2期|共9页

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TiezhengFu; XianqiangYue; HaijunWu; ChenguangFu; TiejunZhu; XiaohuaLiu; LipengHu; PingjunYing; JiaqingHe; XinbingZhao;
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中图分类工程材料学;

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机译：热电材料：通过在掺有Na2Te的p型PbTe中插入MgTe纳米结构来增强热电品质因数（Adv。Energy Mater。9/2012）

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机译：二元相La_（0.3）Ce_（0.37）Fe_3CoS_（12）-PbTe材料的热电品质因数提高

3. High Thermoelectric Figure of Merit in PbTe Alloys Demonstrated in PbTe–CdTe [J] . Yanzhong Pei, Aaron D. LaLonde, Nicholas A. Heinz, Advanced energy materials . 2012,第6期

机译：在PbTe–CdTe中证明的PbTe合金的高热电品质因数

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机译：晶粒尺寸〜100nm的Bi（Sb）Te（Se）体在室温下的增强热电品质因数

5. N- and P-type Nano Bismuth(antimony)tellurium(selenium) Alloy Materials with Enhanced Thermoelectric Figure of Merit and Device Performance. [D] . Chan, Tsung-ta Ethan. 2012

机译：具有增强的热电性能和器件性能的N型和P型纳米铋（锑）碲（硒）合金材料。

6. Enhancing the Figure of Merit of Heavy‐Band Thermoelectric Materials Through Hierarchical Phonon Scattering [O] . Chenguang Fu, Haijun Wu, Yintu Liu, 2016

机译：通过分层声子散射提高重载热电材料的性能

7. Enhanced thermoelectric performance of PbTe bulk materials with figure of merit zT >2 by multi-functional alloying [O] . Tiezheng Fu, Xianqiang Yue, Haijun Wu, 2016

机译：通过多功能合金化提高了pbTe块体材料的热电性能，品质因数zT> 2

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1. 一种共掺杂Cu和Bi提高n型PbTe基热电材料性能的方法 [P] . 中国专利： CN113421960A . 2021-09-21

2. 通过Sb和Cu₂Te共掺杂提高n型PbTe热电性能的方法 [P] . 中国专利： CN111640853A . 2020-09-08

3. BULK-PROCESSED, ENHANCED FIGURE-OF-MERIT THERMOELECTRIC MATERIALS [P] . 外国专利： EP2359417B1 . 2017-08-23

机译：批量处理，改进的品质因数热电材料

4. Bulk-processed, enhanced figure-of-merit thermoelectric materials [P] . 外国专利： US8692106B2 . 2014-04-08

机译：批量处理的改进品质因数热电材料

5. BULK-PROCESSED, ENHANCED FIGURE-OF-MERIT THERMOELECTRIC MATERIALS [P] . 外国专利： EP2359417A4 . 2014-03-19

机译：批量处理，改进的品质因数热电材料

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Enhanced thermoelectric performance of PbTe bulk materials with figure of merit zT 2 by multi-functional alloying

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