化学
互易晶格
衍射
同步加速器
电池(电)
X射线晶体学
纳米技术
电解质
电极
同步辐射
布拉格定律
工程物理
格子(音乐)
电化学
光谱学
中子衍射
相(物质)
合理设计
光电子学
粉末衍射
材料科学
作者
Nan Wang,Xiaohu Zhang,Sha Tan,Seungmin Lee,Enyuan Hu
出处
期刊:Chemical Reviews
[American Chemical Society]
日期:2025-10-03
卷期号:125 (20): 9834-9874
被引量:14
标识
DOI:10.1021/acs.chemrev.5c00394
摘要
Single-crystal materials have attracted growing interest in battery research due to their well-defined crystallographic orientation, absence of grain boundaries, and enhanced mechanical and electrochemical stability. This Review provides a comprehensive overview of recent advances in the synthesis, structural evolution, and performance optimization of single-crystal electrodes and solid electrolytes. Particular focus is placed on the application of advanced X-ray diffraction (XRD) techniques, including operando synchrotron diffraction, reciprocal space mapping, and Bragg coherent diffraction imaging, which have enabled in-depth investigations of lattice strain, cation disorder, phase transitions, and defect formation. Representative case studies across Ni-rich layered oxides, spinel-type cathodes, and garnet-based electrolytes are examined to highlight the structural features unique to single crystals. Additionally, the synergistic integration of XRD with machine learning, tomography, and spectroscopy is discussed as a powerful direction for real-time analysis and predictive modeling. These insights provide critical guidance for the rational design of high-performance single-crystal materials in lithium, sodium, and solid-state battery systems.
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