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个人简介

李驰麟,男,研究员,博士生导师,和“中科院百人计划”入选者。2003年毕业于华东理工大学化学工程与工艺专业,获工学学士;2008毕业于复旦大学物理化学专业, 获理学博士;同年进入德国马普固体研究所从事电池材料和固态离子学方面的研究;2013年加入上海硅酸盐研究所工作。在新型电池材料的结构合成设计、电化学反应机制、纳米离子学、镁电池和固态电池等方面作出系列创新成果。受邀在国际固态离子学大会、国际氟化学大会、国际储能与创新联盟年会、能源存储与转化功能材料国际论坛等国内外会议上作邀请报告20余次。发表期刊论文近60篇,包括以第一作者或通讯作者的J. Am. Chem. Soc.、Adv. Mater. (2篇)、Adv. Funct. Mater.(6篇)、Adv. Energy Mater.、ACS Nano(4篇)、Nano Lett.、Energy Storage Materials、Chem. Mater. (2篇)等,受邀在Energy Storage Materials、npj Computational Materials、科学通报上撰写综述论文3篇。授权PCT国际发明专利1项,授权中国发明专利3项,在申中国发明专利7项。担任Nat. Commun.、J. Am. Chem. Soc.、Adv. Mater.、Adv. Funct. Mater.、Adv. Energy Mater.、ACS Nano、Energy Environ. Sci.、Energy Storage Materials、Chem.Mater.、Mater.Horizons、Nano Energy等期刊特约审稿/仲裁人。担任Sci.Rep.编委和Chin.Chem.Lett.青年编委。

研究领域

新型电池体系和材料: 1)新型电池材料的结构合成设计 2)电化学反应机制和纳米离子学 3)镁电池、锂金属和固态电池

近期论文

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X. J. Zhou, J. Tian, J. L. Hu, and C. L. Li*. High Rate Magnesium-Sulfur Battery with Improved Cyclability Based on Metal-Organic Framework Derivative Carbon Host. Adv. Mater., 30, 1704166, 2018. J. Tian, D. P. Cao, X. J. Zhou, J. L. Hu, M. S. Huang, and C. L. Li*, High-Capacity Mg–Organic Batteries Based on Nanostructured Rhodizonate Salts Activated by Mg-Li Dual-Salt Electrolyte. ACS Nano, 12, 3424-3435, 2018. Q. F. Yang, and C. L. Li*. Li metal batteries and solid state batteries benefiting from halogen-based strategies. Energy Storage Materials, 14, 100-117, 2018. D. P. Cao, Z. G. Yao, J. J. Liu, J. C. Zhang*, and C. L. Li*. H-Nb2O5 Wired by Tetragonal Tungsten Bronze Related Domains as High-Rate Anode for Li-ion Batteries. Energy Storage Materials, 11, 152-160, 2018. C. L. Li*, K. Y. Chen, X. J. Zhou, and J. Maier. Electrochemically driven conversion reaction in fluoride electrodes for energy storage devices. npj Computational Materials, 4, 22, doi:10.1038/s41524-018-0079-6, 2018. F. L. Chu, J. L. Hu, J. Tian, X. J. Zhou, Z. Li*, and C. L. Li*. In-Situ Plating of Porous Mg Network Layer to Reinforce Anode Dendrite Suppression in Li-Metal Batteries. ACS Appl. Mater. Interfaces, 10, 12678-12689, 2018. P. Y. Wang, J. Tian, J. L. Hu, X. J. Zhou, and C. L. Li*. Supernormal Conversion Anode Consisting of High-Density MoS2 Bubbles Wrapped in Carbon Thin-Layer Network by Self-Sulfuration of Polyoxometalate-Based Complex. ACS Nano, 11, 7390-7400, 2017. D. P. Cao, C. L. Yin, D. R. Shi, Z. W. Fu, J. C. Zhang*, and C. L. Li*. Cubic Perovskite Fluoride as Open Framework Cathode for Na-Ion Batteries. Adv. Funct. Mater., 27, 1701130, 2017. J. L. Hu, J. Tian, and C. L. Li*. Nanostructured Carbon Nitride Polymer Reinforced Electrolyte to Enable Dendrite-Suppressed Li Metal Batteries. ACS Appl. Mater. Interfaces, 9, 11615-11625, 2017. D. P. Cao, C. L. Yin, J. C. Zhang*, and C. L. Li*. Bronze and pyrochlore type iron fluorides as cathode materials for Li/Na batteries (in Chinese). Chin. Sci. Bull., 62, 897-907, 2017. J. J. Xie, Y. Zhang, Y. L. Han, and C. L. Li*. High-Capacity Molecular Scale Conversion Anode Enabled by Hybridizing Cluster-Type Framework of High Loading with Amino-Functionalized Graphene. ACS Nano, 10, 5304-5313, 2016. Y. L. Han, M. H. Yang, Y. Zhang, J. J. Xie, D. G. Yin*, and C. L. Li*.Tetragonal Tungsten Bronze Framework as Potential Anode for Na-Ion Batteries. Chem. Mater., 28, 3139-3147, 2016. Y. L. Han, J. L. Hu, C. L. Yin, Y. Zhang, J. J. Xie, D. G. Yin, and C. L. Li*. Iron-Based Fluorides of Tetragonal Tungsten Bronze Structure as Potential Cathodes for Na-Ion Batteries. J. Mater. Chem. A, 4, 7382-7389, 2016. J. L. Hu, Y. Zhang, D. P. Cao, and C. L. Li*. Dehydrating Bronze Iron Fluoride as High Capacity Conversion Cathode for Lithium Batteries. J. Mater. Chem. A, 4, 16166-16174, 2016. P. L. Lou, C. L. Li*, Z. H. Cui, and X. X. Guo*. Job-Sharing Cathode Design for Li-O2 Batteries with High Energy Efficiency Enabled by In-Situ Ionic Liquid Bonding to Cover Carbon Surface Defects. J. Mater. Chem. A, 4, 241-249, 2016. Y. Zhang, J. J. Xie, Y. L. Han, and C. L. Li*. Dual-Salt Mg-Based Batteries with Conversion Cathodes. Adv. Funct. Mater., 25, 7300-7308, 2015. J. J. Xie, C. L. Li*, Z. H. Cui, and X. X. Guo. Transition-Metal-Free Magnesium-Based Batteries Activated by Anionic Insertion into Fluorinated Graphene Nanosheets. Adv. Funct. Mater., 25, 6519-6526, 2015. Z. H. Cui#, C. L. Li#,*, P. F. Yu, M. H. Yang*, X. X. Guo*, and C. L. Yin. Reaction Pathway and Wiring Network Dependent Li/Na Storage of Micro-Sized Conversion Anode with Mesoporosity and Metallic Conductivity. J. Mater. Chem. A, 3, 509-514, 2015. F. Qu, C. L. Li*, Z. M. Wang*, Y. R. Wen, G. Richter, and H. P. Strunk. Eutectic Nano-Droplet Template Injection into Bulk Silicon to Construct Porous Frameworks with Concomitant Conformal Coating as Anodes for Li-Ion Batteries. Sci. Rep., 5, 10381, 2015. F. Qu, C. L. Li*, Z. M. Wang, H. P. Strunk, and J. Maier. Metal-Induced Crystallization of Highly Corrugated Silicon Thick Films as Potential Anodes for Li-Ion Batteries. ACS Appl. Mater. Interfaces, 6, 8782-8788, 2014.

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