Stabilization of Superionic Copper Selenide Based Thermoelectric Materials

IF 14 Q1 CHEMISTRY, MULTIDISCIPLINARY Accounts of materials research Pub Date : 2024-09-25 DOI:10.1021/accountsmr.4c00229
Jincheng Yu, Haihua Hu, Hua-Lu Zhuang, Hezhang Li, Jing-Feng Li
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Abstract

Thermoelectric (TE) technology enables the direct conversion between heat and electricity, thereby contributing to the alleviation of the prevailing energy crisis and the mitigation of environmental concerns. Bismuth telluride-based TE materials have been commercially utilized, while they are mainly applied to solid-state cooling rather than energy harvesting. Superionic conductors including copper chalcogenides and silver chalcogenides are rendered as promising TE candidates for power generation due to their superior thermoelectric figure of merit (ZT) at middle or high temperatures; the liquid-like behavior of ions aligns these systems with the concept of phonon-liquid electron-crystal (PLEC). Although the mobile ions are beneficial to enhancing the electrical transport and phonon scattering, their directional migration driven by an electric field or temperature gradient can result in the unintended deposition of metals, which can impair both the TE properties and the service stability of the materials. Therefore, it is imperative to identify stabilized liquid-like TE materials that can withstand current strike and high temperature.

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稳定超离子硒化铜热电材料
热电(TE)技术实现了热与电的直接转换,从而有助于缓解当前的能源危机和减轻环境问题。基于铋碲的 TE 材料已经投入商业应用,但它们主要应用于固态冷却而非能量收集。包括铜瑀和银瑀在内的超离子导体在中温或高温下具有优异的热电特性(ZT),因此被认为是有希望用于发电的 TE 候选材料;离子的液态行为使这些系统符合声子-液态电子晶体(PLEC)的概念。虽然移动离子有利于增强电传输和声子散射,但它们在电场或温度梯度驱动下的定向迁移会导致金属的意外沉积,从而损害材料的 TE 特性和使用稳定性。因此,当务之急是找到能够承受电流冲击和高温的稳定液态 TE 材料。
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