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Manipulation of Defects for High‐Performance Thermoelectric PbTe‐Based Alloys

Jiayu Zhou, Yixuan Wu, Zhiwei Chen, Pengfei Nan, Binghui Ge, Wen Li, Yanzhong Pei

2021Small Structures19 citationsDOI

Abstract

0D Point defects, 1D dislocations and 2D interfaces act as effective sources for scattering phonons due to the fluctuations in atomic mass and lattice strain. Dislocations have been demonstrated recently to enable a significant reduction in lattice thermal conductivity of PbTe, and a co‐substitution of Eu and Na at Pb site was found to effectively introduce dense in‐grain dislocations in p‐PbTe. This motivates this work to focus on a further PbSe alloying in Na 0.03 Eu 0.03 Pb 0.94 Te for introducing point defects in addition to these dislocations, with participation of a further reduction in lattice thermal conductivity. The resultant extremely low lattice thermal conductivity (a minimum of ≈0.4 W m −1 K −1 ) in the entire temperature range leads to an eventual ≈30% enhancement in the average thermoelectric figure of merit zT in the working temperature range and a peak zT as high as ≈2.3 at 850 K in Na 0.03 Eu 0.03 Pb 0.94 Te 0.9 Se 0.1 .

Topics & Concepts

Materials scienceThermoelectric effectCondensed matter physicsThermal conductivityPhononPhonon scatteringCrystallographic defectAtmospheric temperature rangeLattice (music)Thermoelectric materialsScatteringThermodynamicsOpticsPhysicsComposite materialAcousticsAdvanced Thermoelectric Materials and DevicesThermal properties of materialsThermal Expansion and Ionic Conductivity
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