Litcius/Paper detail

Recent advances, challenges, and perspective of copper‐based liquid‐like thermoelectric chalcogenides: A review

Abdul Basit, Jiwu Xin, G. Murtaza, Lei Wei, Abdul Hameed, Wang Guoyu, Jiyan Dai

2023EcoMat36 citationsDOIOpen Access PDF

Abstract

Abstract As a group of emerging liquid‐like thermoelectric materials for waste heat recovery into useful energy, di‐chalcogenides Cu 2 (S, Se, Te) have been considered as superionic thermoelectric materials. Due to their highly disordered degree of Cu‐ion in the crystal lattice, Cu 2 (S, Se, Te) compounds can exhibit ultralow thermal conductivity, and in the meantime, their rigid sublattice can decently maintain the electrical performance, making them distinct from other state‐of‐the‐art thermoelectric materials. This review summarizes the well‐designed strategies to realize the impressive performance in thermoelectric materials and their modules by linking the adopted approaches such as defect engineering, interfaces, nano‐porous inclusions, thin films, dislocations, nano‐inclusions, and polycrystalline bulks etc., with the moderate design of the device. Some recent reports are selected to outline the fundamentals, underlined challenges, outlooks, and future development of Cu 2 (S, Se, Te) liquid‐like thermoelectric materials. We expect that this review covers the needs of future researchers in choosing some potential materials to explore thermoelectricity and other efficient energy conversion technologies. image

Topics & Concepts

Thermoelectric effectThermoelectric materialsMaterials scienceEngineering physicsNanotechnologyCrystalliteCopperThermal conductivityMetallurgyComposite materialThermodynamicsPhysicsAdvanced Thermoelectric Materials and DevicesChalcogenide Semiconductor Thin FilmsQuantum Dots Synthesis And Properties