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High‐Entropy Cubic Pseudo‐Ternary Ag<sub>2</sub>(S, Se, Te) Materials With Excellent Ductility and Thermoelectric Performance

Heyang Chen, Chenlu Shao, Shaoji Huang, Zhiqiang Gao, Haoran Huang, Zhenyu Pan, Kunpeng Zhao, Pengfei Qiu, Tian‐Ran Wei, Xun Shi

2023Advanced Energy Materials61 citationsDOI

Abstract

Abstract The discovery of ductile Ag 2 (S, Se, Te) materials opens a new avenue toward high‐performance flexible/hetero‐shaped thermoelectrics. Specifically, the cubic‐structured materials are quite attractive by combining remarkable plasticity, decent thermoelectric figure of merit ( zT ), and no phase transition above room temperature. However, such materials are quite few and the understanding is inadequate on their mechanical and thermoelectric properties. Enlightened by the high‐entropy principles, a series of pseudo‐ternary Ag 2 S‐Ag 2 Se‐Ag 2 Te alloys is designed and comprehensive diagrams of composition‐structure‐plasticity‐ zT are compiled. Subsequently, the compositional region for the cubic phase is outlined. As a high‐entropy example featuring with anion‐site alloying and disordered Ag ions, Ag 2‐ x S 1/3 Se 1/3 Te 1/3 materials exhibit impressively large elongations of 60–97%, ultralow lattice thermal conductivities of ≈0.2 W m −1 K −1 , and decent zT values of 0.45 at 300 K, 0.8 at 460 K. The materials can be readily rolled into thin foils, showing excellent flexibility. Finally, a six‐leg in‐plane device is fabricated, achieving an output voltage of 13.6 mV, a maximal power of 12.8 µW, and a power density of 14.3 W m −2 under the temperature difference of 30 K, much higher than the organic counterparts. This study largely enriches the members of cubic ductile inorganic materials for the applications in flexible and hetero‐shaped energy and electronic devices.

Topics & Concepts

Materials scienceThermoelectric effectThermoelectric materialsTernary operationCondensed matter physicsSeebeck coefficientFigure of meritDuctility (Earth science)Lattice (music)High entropy alloysThermodynamicsComposite materialMicrostructureThermal conductivityOptoelectronicsProgramming languageAcousticsCreepComputer sciencePhysicsAdvanced Thermoelectric Materials and DevicesChalcogenide Semiconductor Thin FilmsQuantum Dots Synthesis And Properties
High‐Entropy Cubic Pseudo‐Ternary Ag<sub>2</sub>(S, Se, Te) Materials With Excellent Ductility and Thermoelectric Performance | Litcius