化学
化学计量学
热电效应
同质性(统计学)
功勋
微观结构
晶界
固溶体
纳米技术
化学工程
热电材料
相(物质)
化学物理
有机化学
材料科学
结晶学
光电子学
物理化学
热力学
工程类
物理
统计
数学
作者
Yu Liu,Tobias Kleinhanns,Sharona Horta,Ewelina P. Dutkiewicz-Kopczynska,Shaoqing Lu,María Chiara Spadaro,Aziz Genç,Lei Chen,Khak Ho Lim,Min Hong,Jordi Arbiol,María Ibáñez
摘要
Ag2Se is a promising n-type thermoelectric material, but its performance is limited by excessive carrier concentration, compositional inhomogeneity, and phase instability, challenges rooted in a narrow homogeneity range and uncontrolled Ag+ diffusion in the superionic phase. Here, we address these issues by exploiting liquid-solid interface reactions using CdSe complexes that remove surface excess Ag to yield stoichiometric Ag2Se and generate CdSe nanodomains that inhibit Ag+ diffusion and constrain grain growth. The resulting Ag2Se-CdSe nanocomposites exhibit a reproducible, stable figure of merit (zT) of 1.04 between 300 and 390 K. Beyond demonstrating high performance, we elucidate the interfacial chemical reactions that give rise to the observed microstructure and transport properties, providing a foundation for rationally engineering interfacial chemistry to tailor transport properties across diverse thermoelectric material systems.
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