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Slowing down the heat in thermoelectrics

Bingchao Qin, Dongyang Wang, Li‐Dong Zhao

2021InfoMat124 citationsDOIOpen Access PDF

Abstract

Abstract Heat transport has various applications in solid materials. In particular, the thermoelectric technology provides an alternative approach to traditional methods for waste heat recovery and solid‐state refrigeration by enabling direct and reversible conversion between heat and electricity. For enhancing the thermoelectric performance of the materials, attempts must be made to slow down the heat transport by minimizing their thermal conductivity ( κ ). In this study, a continuously developing heat transport model is reviewed first. Theoretical models for predicting the lattice thermal conductivity ( κ lat ) of materials are summarized, which are significant for the rapid screening of thermoelectric materials with low κ lat . Moreover, typical strategies, including the introduction of extrinsic phonon scattering centers with multidimensions and internal physical mechanisms of materials with intrinsically low κ lat , for slowing down the heat transport are outlined. Extrinsic defect centers with multidimensions substantially scatter various‐frequency phonons; the intrinsically low κ lat in materials with various crystal structures can be attributed to the strong anharmonicity resulting from weak chemical bonding, resonant bonding, low‐lying optical modes, liquid‐like sublattices, off‐center atoms, and complex crystal structures. This review provides an overall understanding of heat transport in thermoelectric materials and proposes effective approaches for slowing down the heat transport to depress κ lat for the enhancement of thermoelectric performance. image

Topics & Concepts

Thermoelectric materialsThermoelectric effectThermal conductivityAnharmonicityMaterials sciencePhonon scatteringWaste heatHeat sinkPhononEngineering physicsNanotechnologyCondensed matter physicsThermodynamicsComposite materialPhysicsHeat exchangerAdvanced Thermoelectric Materials and DevicesThermal properties of materialsThermal Expansion and Ionic Conductivity
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