材料科学
热电效应
热电冷却
塞贝克系数
热电材料
热电发电机
光电子学
兴奋剂
温度梯度
发电
工程物理
Crystal(编程语言)
功率(物理)
凝聚态物理
缓慢冷却
能量转换效率
单晶
纳米技术
发热
作者
Shaoping Zhan,Yi Wen,Yingcai Zhu,Siqi Wang,Jiayi Peng,Yang Jin,Shuo Zhao,Xiang Gao,Qing Ting Tan,Li‐Dong Zhao
摘要
ABSTRACT PbSe crystals exhibit significant potential for development in thermoelectric cooling and power generation applications due to their high‐ranged thermoelectric performance. Herein, we achieve lattice plainification in n‐type PbSe crystals through Ge doping and additional Ge incorporation, leading to a ZT value of 0.7 at room temperature in n‐type Pb 0.993 Ge 0.007 Se+0.0015Ge crystals. The 7‐pair thermoelectric cooling device constructed by n‐type Pb 0.993 Ge 0.007 Se+0.0015Ge crystals and p‐type Bi 2 Te 3 alloys attains a peak temperature difference of 66.3 K with the hot‐side temperature of 343 K. Furthermore, the introduction of interstitial Cu enables a broad‐temperature‐range enhancement of thermoelectric performance. A high average ZT value of 1.07 can be obtained in Pb 0.993 Ge 0.007 Se+0.0015Ge+0.0012Cu crystal across the 303–673 K, as well as a single‐leg device exhibits a peak power generation efficiency of 8.7% under the temperature gradient of 423 K. This study elucidates the great potential of n‐type PbSe crystals in both thermoelectric cooling and power generation, thereby significantly advancing the practical implementation of this cost‐effective thermoelectric material.
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