通过晶体结构工程提高黄铜矿化合物 CuInSeTe(x=0~0.5)的热电性能。

Enhanced thermoelectric performance of a chalcopyrite compound CuInSeTe (x = 0~0.5) through crystal structure engineering.

机构信息

Materials Science and Engineering College, Taiyuan University of Technology, Taiyuan, 030024, China.

School of Materials &Chemical Engineering, Ningbo University of Technology, Ningbo, 315016, China.

出版信息

Sci Rep. 2017 Jan 6;7:40224. doi: 10.1038/srep40224.

DOI:10.1038/srep40224

PMID:28057940

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5216356/

Abstract

In this work the chalcopyrite CuInSeTe (x = 0~0.5) with space group through isoelectronic substitution of Te for Se have been prepared, and the crystal structure dilation has been observed with increasing Te content. This substitution allows the anion position displacement ∆u = 0.25-u to be zero at x ≈ 0.15. However, the material at x = 0.1 (∆u = 0.15 × 10), which is the critical Te content, presents the best thermoelectric (TE) performance with dimensionless figure of merit ZT = 0.4 at 930 K. As x value increases from 0.1, the quality factor B, which informs about how large a ZT can be expected for any given material, decreases, and the TE performance degrades gradually due to the reduction in n and enhancement in κ. Combining with the ZTs from several chalcopyrite compounds, it is believable that the best thermoelectric performance can be achieved at a certain ∆u value (∆u ≠ 0) for a specific space group if their crystal structures can be engineered.

摘要

在这项工作中，通过等电子取代硒制备了具有空间群的黄铜矿 CuInSeTe（x=0 至 0.5），并观察到随着碲含量的增加，晶体结构发生了膨胀。这种取代允许在 x ≈ 0.15 时阴离子位置位移 ∆u = 0.25-u 为零。然而，在 x = 0.1（∆u = 0.15×10）时，即碲的临界含量，材料表现出最佳的热电（TE）性能，在 930 K 时无量纲优值 ZT = 0.4。随着 x 值从 0.1 增加，质量因子 B 减小，这表明给定材料的 ZT 可以预期有多大，TE 性能逐渐下降，这是由于 n 的减少和 κ 的增强所致。结合几种黄铜矿化合物的 ZT 值，可以相信，如果可以对其晶体结构进行设计，对于特定的空间群，在某个特定的 ∆u 值（∆u≠0）下可以获得最佳的热电性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2910/5216356/e93c4da7358b/srep40224-f1.jpg

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通过晶体结构工程提高黄铜矿化合物 CuInSeTe(x=0~0.5)的热电性能。

Enhanced thermoelectric performance of a chalcopyrite compound CuInSeTe (x = 0~0.5) through crystal structure engineering.

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