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Planar Zintl-phase high-temperature thermoelectric materials XCuSb (X = Ca, Sr, Ba) with low lattice thermal conductivity

Sikang Zheng, Kunling Peng, Shijuan Xiao, Zizhen Zhou, Xu Lu, Guang Han, Bin Zhang, Guoyu Wang, Xiaoyuan Zhou

2022Journal of Advanced Ceramics38 citationsDOIOpen Access PDF

Abstract

Abstract A recent discovery of high-performance Mg 3 Sb 2 has ignited tremendous research activities in searching for novel Zintl-phase compounds as promising thermoelectric materials. Herein, a series of planar Zintl-phase XCuSb (X = Ca, Sr, Ba) thermoelectric materials are developed by vacuum induction melting. All these compounds exhibit high carrier mobilities and intrinsic low lattice thermal conductivities (below 1 W·m −1 ·K −1 at 1010 K), resulting in peak p-type zT values of 0.14, 0.30, and 0.48 for CaCuSb, SrCuSb, and BaCuSb, respectively. By using BaCuSb as a prototypical example, the origins of low lattice thermal conductivity are attributed to the strong interlayer vibrational anharmonicity of Cu—Sb honeycomb sublattice. Moreover, the first-principles calculations reveal that n-type BaCuSb can achieve superior thermoelectric performance with the peak zT beyond 1.1 because of larger conducting band degeneracy. This work sheds light on the high-temperature thermoelectric potential of planar Zintl compounds, thereby stimulating intense interest in the investigation of this unexplored material family for higher zT values.

Topics & Concepts

Thermoelectric effectZintl phaseSkutteruditeMaterials scienceThermoelectric materialsCondensed matter physicsThermal conductivityAnharmonicityLattice (music)PlanarCrystal structureCrystallographyThermodynamicsChemistryComputer graphics (images)AcousticsComputer sciencePhysicsComposite materialAdvanced Thermoelectric Materials and DevicesThermal properties of materialsThermal Expansion and Ionic Conductivity