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High Thermoelectric Performance SnTe with a Segregated and Percolated Structure

Zheng Ma, Tian Xu, Wang Li, Yiming Cheng, Jinmeng Li, Yingchao Wei, Qinghui Jiang, Yubo Luo, Junyou Yang

2022ACS Applied Materials & Interfaces44 citationsDOI

Abstract

A nanostructure has a significant role in enhancing the power factor and preventing the heat propagation for thermoelectric materials. Herein, we propose a unique segregated and percolated (SP) microphase-separated structure to enhance the thermoelectric performance of SnTe. The SP structure is composed of insoluble SnTe and AgCuTe, in which AgCuTe with ultralow lattice thermal conductivity undergoes a solid-phase welding during a spark plasma sintering process and forms continuous percolated layers at the interface of isolated SnTe. The SP structure achieved a simultaneous scattering for low energy holes due to the energy offset of the valence band maximum between SnTe and AgCuTe and for phonons due to the noncoherent interfaces between SnTe and AgCuTe, resulting in a high Seebeck coefficient of ∼219.4 μV/K and a low lattice thermal conductivity of ∼1.1 W m–1 K–1 at 800 K for (SnTe)0.55(AgCuTe)0.45. The thermoelectric performance was further enhanced by means of the cosubstitution of In and Mn for Sn in the SnTe lattice, inducing resonance levels and extra phonon scattering. As a result, the SP structure combined with In/Mn codoping enable us to achieve a low lattice thermal conductivity of 0.47 W m–1 K–1, a peak ZT of ∼1.45 at 800 K, and a high average ZT of ∼0.73 (400–800 K) for (Sn0.98In0.01Mn0.01Te)0.75(AgCuTe)0.25.

Topics & Concepts

Materials scienceSpark plasma sinteringThermoelectric effectSeebeck coefficientPhonon scatteringThermal conductivityThermoelectric materialsCondensed matter physicsNanostructurePhononSinteringNanotechnologyThermodynamicsComposite materialPhysicsAdvanced Thermoelectric Materials and DevicesThermal properties of materialsThermal Radiation and Cooling Technologies
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