材料科学
热电效应
四面体
热电材料
多孔性
电阻率和电导率
多孔介质
热导率
功勋
热传导
升华(心理学)
化学工程
光电子学
纳米技术
复合材料
热力学
电气工程
石英
工程类
方铅矿
闪锌矿
心理治疗师
物理
心理学
作者
Haihua Hu,Hua‐Lu Zhuang,Yilin Jiang,Jianlei Shi,Jingwei Li,Jingwei Li,Bowen Cai,Zhanran Han,Jun Pei,Bin Su,Zhen‐Hua Ge,Bo‐Ping Zhang,Jing‐Feng Li,Jing‐Feng Li
标识
DOI:10.1002/adma.202103633
摘要
(0.7 vol%) results in a ≈72% reduction in the lattice thermal conductivity, whereas the electrical conductivity is improved due to unexpected enhanced carrier mobility. As a result, an enhanced zT of 1.15 at 723 K in porous tetrahedrite and a high conversion efficiency of 6% at ΔT = 419 K in a fabricated segmented single-leg based on this porous material are achieved. This work offers an effective way to concurrently modulate the electrical and thermal properties during the synthesis of high-performance porous thermoelectric materials.
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