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Multi-Scale X-Ray Imaging Technologies for Rechargeable Batteries
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作者 Zihan Xu hanwen an Jiajun Wang 《Chinese Physics Letters》 SCIE EI CAS CSCD 2024年第8期107-120,共14页
The rapid advancement in electric vehicles and electrochemical energy storage technology has raised the demands placed on rechargeable batteries.It is essential to comprehend the operational principles and degradation... The rapid advancement in electric vehicles and electrochemical energy storage technology has raised the demands placed on rechargeable batteries.It is essential to comprehend the operational principles and degradation mechanisms of batteries across multiple scales to propel the research on rechargeable batteries for the next generation forward.Microstructure,phase information,and lattice of energy materials in both two dimensions and three dimensions can be intuitively obtained through the utilization of x-ray imaging techniques.Additionally,x-ray imaging technology is increasingly gaining attention due to its non-destructive nature and high penetrative capability,enabling in situ experiments and multi-scale spatial resolution.In this review,we initially overview the basic principles and characteristics of several key x-ray imaging technologies.Each x-ray imaging technology is tailored to specific application scenarios.Furthermore,examples of multi-scale implementations of x-ray imaging technologies in the field of rechargeable batteries are discussed.This review is anticipated to augment the comprehension of readers for x-ray imaging techniques as well as to stimulate the development of novel concepts and approaches in rechargeable battery research. 展开更多
关键词 BATTERY DIMENSIONS CHARGE
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全固态电池界面的研究进展 被引量:16
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作者 王晗 安汉文 +2 位作者 单红梅 赵雷 王家钧 《物理化学学报》 SCIE CAS CSCD 北大核心 2021年第11期35-48,共14页
采用固态电解质代替有机电解液的全固态电池具有高能量密度和高安全性等优点,为下一代能量存储设备提供了一种很有发展前途的解决方案。然而,大多数固态电解质和电极活性物质间都存在严重的界面问题,制约固态电池的实际应用;解决固态电... 采用固态电解质代替有机电解液的全固态电池具有高能量密度和高安全性等优点,为下一代能量存储设备提供了一种很有发展前途的解决方案。然而,大多数固态电解质和电极活性物质间都存在严重的界面问题,制约固态电池的实际应用;解决固态电池中的固-固界面问题,提升固态电池电化学性能是目前的研究热点。本文详细总结了固态电池中的界面挑战、改善策略以及针对界面问题的表征方法,并展望了固态电池今后发展中的关键方向和趋势。 展开更多
关键词 全固态电池 固体电解质 界面 稳定性 界面修饰 表征方法
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