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Realizing Ultrahigh Thermoelectric Performance in n‐Type PbSe Through Lattice Planification and Introducing Liquid‐Like Cu Ions

Huimei Pang, Yongxin Qin, Bingchao Qin, Lingxiao Yu, Xianli Su, Hao Liang, Zhen‐Hua Ge, Qian Cao, Qing Tan, Li‐Dong Zhao

2024Advanced Functional Materials39 citationsDOIOpen Access PDF

Abstract

Abstract The coupling relationship between electrical and thermal transports makes it rather challenging to enhance thermoelectric performance. Here, electrical and thermal transports are successfully decoupled to realize high performance in n‐type PbSe by utilizing a stepwise strategy. First, the PbSe lattice is plained with extra Pb to compensate for the intrinsic Pb vacancies, which can weaken defect scattering and improve carrier mobility to ≈1230 cm 2 V −1 s −1 . The room‐temperature power factor triples and reaches ≈32 µW cm −1 K −2 , and ZT is significantly enhanced to ≈0.6 in Pb 1.006 Se. Subsequently, liquid‐like interstitial Cu ions are introduced to inhibit heat conduction without damaging electrical transport. While maintaining a high power factor of ≈25 µW cm −1 K −2 , Cu ions strongly suppress phonon transport at high temperature, leading to an ultralow lattice thermal conductivity of ≈0.28 W m −1 K −1 in Pb 1.006 Cu 0.006 Se, only 30% of the Cu‐free PbSe. Eventually, a remarkable peak ZT of ≈1.8 at 773 K is achieved along with a high average ZT of ≈1.1 from 300 to 823 K in Pb 1.006 Cu 0.006 Se. An outstanding experimental conversion efficiency of ≈7.1% is obtained in the single‐leg device, demonstrating great potential for PbSe as low‐ to mid‐temperature thermoelectrics.

Topics & Concepts

Materials scienceThermoelectric effectIonLattice (music)Thermoelectric materialsCondensed matter physicsThermodynamicsComposite materialQuantum mechanicsPhysicsThermal conductivityAcousticsAdvanced Thermoelectric Materials and DevicesPerfectionism, Procrastination, Anxiety StudiesChalcogenide Semiconductor Thin Films
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