Affiliation:
1. School of Chemistry and Physics ARC Research Hub in Zero‐Emission Power Generation for Carbon Neutrality and Centre for Materials Science Queensland University of Technology Brisbane Queensland 4000 Australia
2. Ningbo Institute of Materials Technology and Engineering Chinese Academy of Sciences Ningbo 315201 China
3. University of Chinese Academy of Science Beijing 101408 China
Abstract
AbstractThermoelectric technology, which enables a direct and pollution‐free conversion of heat into electricity, provides a promising path to address the current global energy crisis. Among the broad range of thermoelectric materials, silver copper chalcogenides (AgCuQ, Q = S, Se, Te) have garnered significant attention in thermoelectric community in light of inherently ultralow lattice thermal conductivity, controllable electronic transport properties, excellent thermoelectric performance across various temperature ranges, and a degree of ductility. This review epitomizes the recent progress in AgCuQ‐based thermoelectric materials, from the optimization of thermoelectric performance to the rational design of devices, encompassing the fundamental understanding of crystal structures, electronic band structures, mechanical properties, and quasi‐liquid behaviors. The correlation between chemical composition, mechanical properties, and thermoelectric performance in this material system is also highlighted. Finally, several key issues and prospects are proposed for further optimizing AgCuQ‐based thermoelectric materials.
Funder
Australian Research Council
National Natural Science Foundation of China
International Cooperation Project of Ningbo City
Cited by
6 articles.
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