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Realizing thermoelectric cooling and power generation in N-type PbS0.6Se0.4 via lattice plainification and interstitial doping

Lei Wang, Yi Wen, Shulin Bai, Cheng Chang, Yichen Li, Shan Liu, Dongrui Liu, Siqi Wang, Zhe Zhao, Shaoping Zhan, Qian Cao, Xiang Gao, Hongyao Xie, Li‐Dong Zhao

2024Nature Communications97 citationsDOIOpen Access PDF

Abstract

Abstract Thermoelectrics have great potential for use in waste heat recovery to improve energy utilization. Moreover, serving as a solid-state heat pump, they have found practical application in cooling electronic products. Nevertheless, the scarcity of commercial Bi 2 Te 3 raw materials has impeded the sustainable and widespread application of thermoelectric technology. In this study, we developed a low-cost and earth-abundant PbS compound with impressive thermoelectric performance. The optimized n-type PbS material achieved a record-high room temperature ZT of 0.64 in this system. Additionally, the first thermoelectric cooling device based on n-type PbS was fabricated, which exhibits a remarkable cooling temperature difference of ~36.9 K at room temperature. Meanwhile, the power generation efficiency of a single-leg device employing our n-type PbS material reaches ~8%, showing significant potential in harvesting waste heat into valuable electrical power. This study demonstrates the feasibility of sustainable n-type PbS as a viable alternative to commercial Bi 2 Te 3 , thereby extending the application of thermoelectrics.

Topics & Concepts

Thermoelectric effectThermoelectric materialsMaterials scienceDopingThermoelectric coolingWaste heatThermoelectric generatorSolid-stateWaste heat recovery unitLattice (music)ScarcityEngineering physicsNuclear engineeringNanotechnologyProcess engineeringOptoelectronicsThermodynamicsHeat exchangerPhysicsEngineeringEconomicsAcousticsMicroeconomicsAdvanced Thermoelectric Materials and DevicesChalcogenide Semiconductor Thin FilmsThermal Radiation and Cooling Technologies
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