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罗马里奥

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[资源] Chem. Rev文章——Nanowire Electrodes for Electrochemical Energy Storage Devices

2014年新晋杰青、武汉理工大学麦立强教授刚刚在chemical review上发表了一篇名为“Nanowire Electrodes for Electrochemical Energy Storage Devices”的综述文章，全文35页，参考文献418篇。
在最近十几年中，纳米线结构吸引了全世界科学家们大量的研究兴趣。纳米线研究领域的领军人物是哈佛大学的Charles M. Lieber教授及其学生——加利福尼亚大学伯克利分校的杨培东教授。
这篇综述文章总结了纳米线基电化学储能设备的最新研究进展，重点阐述了储能设备领域中的原位电化学探索、优化策略以及未来的展望。

Liqiang Mai received his Ph.D. degree from Wuhan University of Technology in 2004. He then carried out postdoctoral research in the laboratory of Professor Zhonglin Wang at Georgia Institute of Technology in 2006–2007 and worked as an advanced research scholar in the laboratory of Professor Charles M. Lieber at Harvard University in 2008–2011. He is Chair Professor of Materials Science and Engineering at Wuhan University of Technology and Executive Director of the WUT-Harvard Joint Nano Key Laboratory. He has published more than 90 papers tagged by SCI in peer-reviewed journals such as Nature Nanotechnology, Nature Communications, Proceedings of the National Academy of Sciences, Journal of the American Chemical Society, Nano Letters, Advanced Materials. His interests include nanowire materials, micro/nanoenergy storage devices, and energy-based nano–bio interface.
Biography
1. Introduction
2. Nanowire Devices for Electrochemical Probing
2.1. Single Nanowire for ex-Situ Diagnosis
2.2. Single Nanowire for in-Situ Diagnosis
2.2.1. In-Situ TEM Diagnosis
2.2.2. Other Methods for in-Situ Diagnosis
3. Challenges and Optimization Strategies of Nanowire Electrodes
3.1. Restrainment of Conductivity Decrease during Cycling
3.2. Suppression of Structure Degradation
3.3. Reduction of Self-Aggregation
4. Interfaces of Nanowire Electrodes
4.1. Interfaces between Electrodes and Electrolytes
4.2. Interfaces Inside the Heterostructured Composite Nanowires
5. Nanochemistry for Controlled Synthesis of Nanowire Electrodes
5.1. Solution-Phase Route
5.1.1. Hydro(solvo)thermal Strategy
5.1.2. Microemulsion Strategy
5.2. Hard Template Methods
5.2.1. Template Filling Strategy
5.2.2. Electrochemical Deposition
5.2.3. Electrophoretic Deposition
5.2.4. Electrospinning Strategy
5.3. Oriented-Attachment Method
6. Nanowire Electrodes for Advanced and Next-Generation Energy Storage Devices
6.1. Nanowire Electrodes for Advanced Lithium-Ion Batteries
6.1.1. Nanowire Electrodes for Ultrafast Lithium-Ion Batteries
6.1.2. Nanowire Electrodes for Flexible Lithium-Ion Batteries
6.2. Nanowire Electrodes for Advanced Sodium-Ion Batteries
6.3. Nanowire Electrodes for Li–Air Batteries
6.4. Nanowire Electrodes for Li–S Batteries
6.5. Nanowire Electrodes for Supercapacitors
6.6. Nanowire Electrodes for Micro/Nanoscale Energy Storage Devices
7. Concluding Remarks

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[ Last edited by 罗马里奥 on 2014-10-9 at 08:28 ]

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附件 1 : 2014-cr500177aNanowire_Electrodes_for_Electrochemical_Energy_Storage_Devices_(Review).pdf

2014-10-08 15:54:00, 41.22 M