Chengang Pei, Dong Zhang, Jae-Kwon Kim, Xu Yu, Uk Sim, Ho Seok Park, Jung Kyu Kim
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引用次数: 0
Abstract
The inherent technical challenges of metal-air batteries (MABs), arising from the sluggish redox electrochemical reactions on the air electrode, significantly affect their efficiency and life cycle. Two-dimensional (2D) nanomaterials with near-atomic thickness have potential as bifunctional catalysts in MABs because of their distinct structures, exceptional physical properties, and tunable surface chemistries. In this study, the chemistry of representative 2D materials was elucidated, and the comprehensive analysis of the primary modification techniques, including geometric structure manipulation, defect engineering, crystal facet selection, heteroatom doping, single-atom catalyst construction, and composite material synthesis, was conducted. The correlation between material structure and activity is illustrated by examples, with the aim of leading the development of advanced catalysts in MABs. We also focus on the future of MABs from the perspective of bifunctional catalysts, definite mechanisms, and standard measurement. We expect this work to serve as a guide for the design of air electrode materials that can be used in MABs.
金属-空气电池(MABs)固有的技术难题来自于空气电极上迟缓的氧化还原电化学反应,这严重影响了其效率和生命周期。具有接近原子厚度的二维(2D)纳米材料因其独特的结构、优异的物理性质和可调的表面化学性质,具有在 MAB 中用作双功能催化剂的潜力。本研究阐明了具有代表性的二维材料的化学性质,并全面分析了主要的改性技术,包括几何结构操作、缺陷工程、晶面选择、杂原子掺杂、单原子催化剂构建和复合材料合成。通过实例说明了材料结构与活性之间的相关性,旨在引领 MAB 先进催化剂的发展。我们还从双功能催化剂、确定机制和标准测量的角度关注 MABs 的未来。我们期望这项工作能为设计可用于 MAB 的空气电极材料提供指导。
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