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A wide-band-gap p-type thermoelectric material based on quaternary chalcogenides of Cu2ZnSnQ4 (Q=S,Se)

机译：基于Cu2ZnSnQ4（Q = S，Se）的四族硫族化物的宽带隙p型热电材料

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摘要

Chalcopyritelike quaternary chalcogenides, Cu(2)ZnSnQ(4) (Q=S,Se), were investigated as an alternative class of wide-band-gap p-type thermoelectric materials. Their distorted diamondlike structure and quaternary compositions are beneficial to lowering lattice thermal conductivities. Meanwhile, partial substitution of Cu for Zn creates more charge carriers and conducting pathways via the CuQ(4) network, enhancing electrical conductivity. The power factor and the figure of merit (ZT) increase with the temperature, making these materials suitable for high temperature applications. For Cu(2.1)Zn(0.9)SnQ(4), ZT reaches about 0.4 at 700 K, rising to 0.9 at 860 K.

机译：黄铜矿状的第四级硫族化物，Cu（2）ZnSnQ（4）（Q = S，Se），作为宽带隙p型热电材料的另一类研究。它们扭曲的类金刚石结构和四元组成有利于降低晶格热导率。同时，用Cu代替Zn可以创建更多的电荷载流子和通过CuQ（4）网络的导电路径，从而提高了电导率。功率因数和品质因数（ZT）随温度而增加，从而使这些材料适合高温应用。对于Cu（2.1）Zn（0.9）SnQ（4），ZT在700 K时达到约0.4，在860 K时升至0.9。

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Liu, Min-Ling; Huang, Fu-Qiang; Chen, Li-Dong; Chen, I-Wei;
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1. A wide-band-gap p-type thermoelectric material based on quaternary chalcogenides of Cu_2ZnSnQ_4 (Q=S,Se) [J] . Min-Ling Liu, Fu-Qiang Huang, Li-Dong Chen, Applied Physicsletters . 2009,第20期

机译：基于Cu_2ZnSnQ_4（Q = S，Se）的四族硫族化物的宽带隙p型热电材料
2. P-type quaternary chalcogenides of Cu 2ZnSn(S,Se) 4 nanocrystals: Large-scale synthesis, bandgap engineering and their thermoelectric performances [J] . Xinfeng Zheng, Yufeng Liu, Yong Du, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2018,第期

机译：Cu 2 znsn（s，se） 4 纳米晶：大 - Spale合成，带隙工程及其热电性能
3. Chemical composition tuning in quaternary p-type Pb-chalcogenides-a promising strategy for enhanced thermoelectric performance [J] . Sima Aminorroaya Yamini, Heng Wang, Zachary M. Gibbs Physical chemistry chemical physics: PCCP . 2014,第5期

机译：四元p型Pb-硫族化物中的化学成分调节-增强热电性能的有前途的策略
4. Solid state chemistry approach to advanced thermoelectrics. Ternary and quaternary alkali metal bismuth chalcogenides as thermoelectric materials [C] . Mercouri G.Kanatzidis, Duck-Young Chung, Lykourgos Iordanidis, Symosium on thermoelectric materials - the next generation materials for small-scale refrigeration and power generation applications . 1999

机译：固态化学探讨先进的热电。三元和季碱金属铋硫属化物作为热电材料
5. Transport characteristics of novel degenerate semiconductor materials: Chalcogenide based thermoelectric systems and cadmium oxide based thin film transparent conducting oxide systems. [D] . Ireland, John R. 2004

机译：新型简并半导体材料的传输特性：基于硫属化物的热电系统和基于氧化镉的薄膜透明导电氧化物系统。
6. Copper Chalcogenide–Copper Tetrahedrite Composites—A New Concept for Stable Thermoelectric Materials Based on the Chalcogenide System [O] . Andrzej Mikuła, Krzysztof Mars, Paweł Nieroda, 2021

机译：铜硫属元素化物 - 铜四墩铜复合材料 - 基于硫属化物系统的稳定热电材料的新概念
7. Thermoelectric performance of tellurium-reduced quaternary p-type lead–chalcogenide composites [O] . Yamini Sima Aminorroaya, Wang Heng, Gibbs Zachary M., 2014

机译：碲还原的季p型铅-硫族化物复合材料的热电性能

A wide-band-gap p-type thermoelectric material based on quaternary chalcogenides of Cu2ZnSnQ4 (Q=S,Se)

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