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Achieving High Thermoelectric Properties of Cu<sub>2</sub>Se via Lattice Softening and Phonon Scattering Mechanism

Lin Bo, Ruipeng Zhang, Haoyu Zhao, Yangbo Hou, Xinglong Wang, Junliang Zhu, Linghao Zhao, Min Zuo, Degang Zhao

2022ACS Applied Energy Materials24 citationsDOI

Abstract

Co-alloying solid solution was regarded as a convenient approach to optimize the thermoelectric properties. In this study, the densified Cu2–x(MnFeNi)xSe1–yTey (x = 0–0.09; y = 0–0.03) designed by entropy engineering was prepared via microwave melting and hot-pressing sintering. The scattering mechanism and thermoelectric performance of Cu2Se were evaluated. Due to the regulation of the carrier concentration and structural stabilization of the β-phase, the electrical performance was significantly enhanced. Moreover, the infrared spectroscopy analysis and the decrease in sound velocity unambiguously demonstrated the existence of a lattice softening effect of bulk Cu2Se. By manipulating the lattice conductivity using entropy engineering, the thermal transport property gradually decreased (∼0.4 W m–1 K–1 at 300 K) due to the lattice softening effect and phonon scattering mechanism. The obtained zTmax was 1.37 at 750 K in the Cu2.91(MnFeNi)0.09Se0.99Te0.01 sample.

Topics & Concepts

Materials scienceThermoelectric effectSofteningPhonon scatteringPhononScatteringCondensed matter physicsThermoelectric materialsElectrical resistivity and conductivityThermodynamicsThermal conductivityComposite materialOpticsElectrical engineeringPhysicsEngineeringAdvanced Thermoelectric Materials and DevicesThermal properties of materialsChalcogenide Semiconductor Thin Films
Achieving High Thermoelectric Properties of Cu<sub>2</sub>Se via Lattice Softening and Phonon Scattering Mechanism | Litcius