阳极
组分(热力学)
纳米技术
表征(材料科学)
碳纤维
生化工程
钥匙(锁)
材料科学
合理设计
计算机科学
碳纳米管
纳米尺度
比例(比率)
材料设计
工艺工程
设计要素和原则
多尺度建模
公共记录
复杂系统
机制(生物学)
作者
Zhen-qi Song,Suhua Chen,Xiaosong XIONG,Ke Wang,Gaoming Sun,Yanjiao Ma,Ying Bai,Yuan Ma,Yuping Wu
标识
DOI:10.1002/smtd.202501609
摘要
Abstract Nano‐restricted structures (NRS) refer to spatially restricted domains or channels constructed at the nanoscale through physical or chemical methods, whose unique confinement effects profoundly regulate the transport, storage, and reaction behaviors of substances. As a critical structural component in hard carbon (HC) anode materials, the precise design and regulation of NRS play a decisive role in enhancing the comprehensive performance of HC. However, the underlying sodium storage kinetics and multiscale synergistic mechanisms within these NRS remain insufficiently understood. This paper systematically reviews the controllable synthesis strategies, formation mechanisms, structure–property relationships, advanced characterization techniques, and performance optimization approaches for NRS in HC anodes, elucidating the physicochemical essence and multidimensional synergistic mechanisms behind their performance enhancement. Furthermore, the key insights proposed herein provide critical theoretical guidance and technical support for the rational design of high‐performance HC anode materials and their practical implementation in sodium‐ion batteries.
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