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Thermoelectric Enhancements in PbTe Alloys Due to Dislocation‐Induced Strains and Converged Bands

Yixuan Wu, Pengfei Nan, Zhiwei Chen, Zezhu Zeng, Ruiheng Liu, Hongliang Dong, Li Xie, Youwei Xiao, Zhiqiang Chen, Hongkai Gu, Wen Li, Yue Chen, Binghui Ge, Yanzhong Pei

2020Advanced Science136 citationsDOIOpen Access PDF

Abstract

Abstract In‐grain dislocation‐induced lattice strain fluctuations are recently revealed as an effective avenue for minimizing the lattice thermal conductivity. This effect could be integratable with electronic enhancements such as by band convergence, for a great advancement in thermoelectric performance. This motivates the current work to focus on the thermoelectric enhancements of p‐type PbTe alloys, where monotelluride‐alloying and Na‐doping are used for a simultaneous manipulation on both dislocation and band structures. As confirmed by synchrotron X‐ray diffractions and Raman measurements, the resultant dense in‐grain dislocations induce lattice strain fluctuations for broadening the phonon dispersion, leading to an exceptionally low lattice thermal conductivity of ≈0. 4 W m‐K −1 . Band structure calculations reveal the convergence of valence bands due to monotelluride‐alloying. Eventually, the integration of both electronic and thermal improvements lead to a realization of an extraordinary figure of merit zT of ≈2.5 in Na 0.03 Eu 0.03 Cd 0.03 Pb 0.91 Te alloy at 850 K.

Topics & Concepts

Materials scienceThermoelectric effectCondensed matter physicsPhononThermoelectric materialsDislocationRaman spectroscopyBand gapDopingThermal conductivityOptoelectronicsOpticsComposite materialThermodynamicsPhysicsAdvanced Thermoelectric Materials and DevicesThermal properties of materialsAdvanced Thermodynamics and Statistical Mechanics
Thermoelectric Enhancements in PbTe Alloys Due to Dislocation‐Induced Strains and Converged Bands | Litcius