Outside Front Cover: Volume 3 Issue 4

IF 24.5 Q1 CHEMISTRY, PHYSICAL Interdisciplinary Materials Pub Date : 2024-07-18 DOI:10.1002/idm2.12205
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Abstract

Outside Front Cover: The study in doi:10.1002/idm2.12170 investigates the effect of stabilizing the metastable phase on thermoelectric performance of GeSe by manipulating the chemical bonding mechanisms. This image illustrates the transformation of chemical bonding mechanism from covalent bonding to metavalent bonding and the corresponding phase transition from a stable orthorhombic to a metastable rhombohedral phase. The metastable phase demonstrates excellent thermoelectric performance, which can improve the conversion efficiency of thermoelectric device. High-performance thermoelectric devices have potential applications in chip heat-management systems and as power supply systems (RTGs) for longterm space exploration projects.

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封面外页:第 3 卷第 4 期
封面外页:doi:10.1002/idm2.12170》中的研究探讨了通过操纵化学键机制稳定硒化 GeSe 的蜕变相对其热电性能的影响。这张图片说明了化学键机制从共价键到偏五价键的转变,以及相应的从稳定的正方体相到可陨落的斜方体相的相变。蜕变相具有优异的热电性能,可以提高热电设备的转换效率。高性能热电器件有望应用于芯片热管理系统和长期太空探索项目的供电系统(RTGs)。
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Issue Information Outside Front Cover: Volume 3 Issue 6 Outside Back Cover: Volume 3 Issue 6 Idea of macro-scale and micro-scale prestressed ceramics Issue Information
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