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Magneto-thermal conductivity effect and enhanced thermoelectric figure of merit in Ag2Te

Keisuke Hirata, Kentaro Kuga, Masaharu Matsunami, Minyue Zhu, Joseph P. Heremans, Tsunehiro Takeuchi

2023AIP Advances11 citationsDOIOpen Access PDF

Abstract

In this study, we report a large magneto-thermal conductivity effect, potentially usable in heat flow switches and thermoelectric devices, in Ag2Te over a wide temperature range, including room temperature. When a magnetic field of μ0H = 9 T is applied to Ag2Te at 300 K along the direction perpendicular to the heat and electric currents, the thermal conductivity κ decreases by a remarkable 61%. This effect is mainly caused by the suppressed electronic thermal conductivity in association with a significant magnetoresistance effect, but the suppression of the thermal conductivity is larger than that of the electrical conductivity, presumably due to a field-induced decrease in the Lorenz ratio. Its very low lattice thermal conductivity, as low as 0.5 W m−1 K−1, also greatly contributes to the large relative magneto-thermal conductivity effect. The significant decrease in thermal conductivity and the 18% increase in the Seebeck coefficient S lead to a nearly 100% increase in the thermoelectric figure of merit zT = S2σTκ−1 despite the 43% decrease in electrical conductivity σ.

Topics & Concepts

Thermal conductivityThermoelectric effectCondensed matter physicsMaterials scienceSeebeck coefficientThermoelectric materialsFigure of meritMagnetoElectrical resistivity and conductivityMagnetoresistanceMagnetic fieldThermal conductionAtmospheric temperature rangeThermodynamicsComposite materialOptoelectronicsPhysicsPower (physics)Quantum mechanicsAdvanced Thermoelectric Materials and DevicesTopological Materials and PhenomenaThermal properties of materials
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