范修林
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1
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范修林，分别于2007年和2012年从浙江大学材料科学与工程系获得学士和博士学位。2013年开始在美国马里兰大学从事博士后研究，2017年4月晋升为研究科学家。2019年入选国家级青年人才计划，同年8月加入浙江大学材料科学与工程学院担任“****”研究员。主要从事二次电池（包括锂离子电池、钠离子电池、钾离子电池等）等能源存储器件的界面工程及相关电解液\/电解质的设计研究，在Science, Nature Nanotech., Nature Mater., Nature Energy等期刊发表SCI论文150余篇（IF>10的80余篇）,引用次数>10000,H因子=55。入选2020年科睿唯安（Clarivate）全球高被引科学家，入选2020年中国新锐科技人物。
研究成果先后被Science,Nature Mater.,Nature Nanotech.,Nature Energy,C&EN,Science Daily,Engineering 360, TechXplore, R&Dmag，人民网等国际顶级期刊和国际、国内知名媒体报道，受到广泛关注。
课题组常年招收博士后以及博士、硕士研究生，欢迎具有化学、有机、高分子、材料等背景且有志从事能源存储研究的同学报考加盟，也欢迎对科学研究感兴趣的本科同学加入研究组参与科研项目。
部分工作介绍见：https:\/\/www.bilibili.com\/video\/BV1uV411d7cL?from=search&seid=5098**5114

Selected Peer-Reviewed Journal Publications：
[1].J. Chen^#, X. Fan^#, Q. Li^#, H. Yang, M.R. Khoshi, Y. Xu, S. Hwang, L. Chen, X. Ji, C. Yang, H. He, C. Wang, E. Garfunkel, D. Su, O. Borodin, C. Wang, Electrolyte Design for LiF-rich Solid-Electrolyte Interfaces to Enable High-performance Microsized Alloy Anodes for Batteries.Nature Energy,2020, In press.
[2]. T. Deng, X. Fan,*L. Cao, J. Chen, S. Hou, X. Ji, L. Chen, E. Hu, S. Li, X. Zhou, D. Su, X. Yang, C. Wang*. Designing in-situ formed interphases enables highly reversible cobalt-free LiNiO2 cathode for lithium metal\/ion battery. Joule, 2019, Accepted. (Corresponding author).
[3]. X. Fan,^#X. Ji,^#L. Chen,^#J. Chen, T. Deng, F. Han, J. Yue, N. Piao, R. Wang, X. Zhou, X. Xiao, L. Chen, C. Wang. All-temperature batteries enabled by fluorinated electrolytes with non-polar solvents. Nature Energy, 2019, Accepted.
[4]. L. Chen,^#X. Fan,^#E. Hu,^#X. Ji, J. Chen, S. Hou, T. Deng, J. Li, D. Su, X. Yang, C. Wang, Achieving high-energy density through increasing the output voltage: a highly reversible 5.3 V battery, Chem, 2019, 5, 896-912. (Co-first author, equal contribution).
[5]. L. Chen,^#X. Fan,^#X. Ji,^#J. Chen, S. Hou, C. Wang, High energy Li metal battery with lithiated host, Joule, 2019, 3, 732-744.
[6]. X. Fan,^#L. Chen,^#O. Borodin, X. Ji, J. Chen, S. Hou, T. Deng, J. Zheng, C. Yang, S. Liou, K. Amine, K. Xu, C. Wang, Non-flammable Electrolyte Enables Li-Metal Batteries with Aggressive Cathode Chemistries, Nature Nanotechnology, 2018, 13 (8) 715-722.
[7]. X. Fan,^#E. Hu,^#X. Ji, Y. Zhu, F. Han, S. Hwang, J. Liu, S. Bak, Z. Ma, T. Gao, S.-C. Liou, J. Bai, X.-Q. Yang, Y. Mo, K. Xu, D. Su, C Wang, High Energy-Density and Reversibility of Iron Fluoride Cathode Enabled Via an Intercalation-Extrusion Reaction, Nature Communications, 2018, 9 (1), 2324
[8]. X. Fan,^#X. Ji,^#F. Han, J. Yue, J. Chen, L. Chen, T. Deng, J. Jiang, C. Wang. Fluorinated solid electrolyte interphase enables highly reversible solid-state Li metal battery, Science Adv., 2018, 4, aau9245.
[9]. T. Deng,^#X. Fan,^#J. Chen, L Chen, C. Luo, X. Zhou, J. Yang, S. Zheng, C. Wang. Layered P2-Type K0.65Fe0.5Mn0.5O2 Microspheres as Superior Cathode for High-Energy Potassium-Ion Batteries, Advanced Functional Materials, 2018, **. (Co-first author, equal contribution).
[10]. J. Zheng,^#X. Fan,^#G. Ji, H. Wang, S. Hou, K.C. DeMella, S.R. Raghavan, J. Wang, K. Xu, C. Wang. Manipulating electrolyte and solid electrolyte interphase to enable safe and efficient Li-S batteries. Nano Energy, 2018, 50, 431-440. Accepted. (Co-first author, equal contribution).
[11]. X. Fan,^#F. Wang,^#X. Ji R. Wang, T. Gao, S. Hou, J. Chen, T. Deng, C. Luo, X. Li, L. Wang, C. Wang, A Universal Organic Cathode for Ultrafast Li‐ and Multivalent Metal Batteries, Angew. Chem. Int. Ed., 2018, 57 (24), 7146-7150.
[12]. J. Chen^#X. Fan,^#X. Ji, T. Gao, S. Hou, X. Zhou, L. Wang, F. Wang, C. Yang, L. Chen, and C. Wang, Intercalation of Bi nanoparticles into graphite enables ultra-fast and ultra-stable anode material for Sodium-ion batteries, Energy & Environmental Science, 2018, 2018, 11, 1218-1225. (Co-first author, equal contribution).
[13]. X. Fan,^#J. Yue,^#F Han, J. Chen, T. Deng, X. Zhou,S. Hou, C. Wang, "High Performance All-Solid-State Na-S Battery Enabled by Casting-Annealing Technology" ACS Nano 2018, 12, 4, 3360-3368.
[14]. T. Deng,^#X. Fan,^#C. Luo, J. Chen, L. Chen, S. Hou, N. Eidson, X. Zhou, C. Wang. Self-templated Formation of P2-type K_0.6CoO₂ Microspheres for High Reversible Potassium-ion Batteries. Nano Letter, 2018 18, 2, 1522-1529. (Co-first author, equal contribution).
[15]. X. Fan, L. Chen, X. Ji, T. Deng, S. Hou, J. Chen, J. Zheng, F. Wang, J. Jiang, K. Xu, C. Wang. Highly Fluorinated Interphases Enable High-Voltage Li-Metal Batteries. Chem. 2018, 4, 174-185.
[16]. X Huang, X Xiao,* X Wang, Z Yao, C Wang,* X Fan,* L Chen*. Highly synergetic catalytic mechanism of Ni@ g-C3N4 on the superior hydrogen storage performance of Li-Mg-BH system. Energy Storage Materials, 2018, 13, 199-206. (Corresponding author)
[17]. C. Lin,^#X. Fan,^#A. Pearse,S. C. Liou, K. Gregorczyk, M. Leskes, C. Wang, S. B, Lee, G. Rubloff, M. Noked, "Highly Reversible Conversion-type FeOF Composite Electrode with Extended Lithium Insertion by ALD LiPON protection," Chem. Mater., 2017, 29 (20), 8780-8791. (Co-first author, equal contribution).
[18]. F. Wang,^#X. Fan,^#T. Gao, W. Sun, Z. Ma, C. Yang, F. Han, K. Xu and C. Wang, "High-Voltage Aqueous Magnesium-Ion Batteries," ACS Central Science, 2017, 3 (10), pp 1121–1128. (Co-first author, equal contribution).
[19]. X. Fan, T. Gao, C. Luo, F. Wang, J. Hu, C. Wang, Superior reversible tin phosphide-carbon spheres for sodium ion battery anode, Nano Energy 38 (2017) 350–357.
[20]. X Fan, Y Zhu, C Luo, L Suo, Y Lin, T Gao, K Xu, C Wang. Pomegranate-Structured Conversion-Reaction Cathode with a Built-in Li Source for High-Energy Li-Ion Batteries. ACS nano, 2016, 10, 5567-5577.
[21]. X Fan, Y Zhu, C Luo, T Gao, L Suo, SC Liou, K Xu, C Wang. In situ lithiated FeF3\/C nanocomposite as high energy conversion-reaction cathode for lithium-ion batteries. J. Power Sources, 2016, 307, 435-442.
[22]. X Fan, C Luo, J Lamb, Y Zhu, K Xu, C Wang. PEDOT encapsulated FeOF nanorod cathodes for high energy lithium-ion batteries. Nano letters, 2015, 15, 7650-7656.
[23]. X Fan, J Mao, Y Zhu, C Luo, L Suo, T Gao, F Han, SC Liou, C Wang. Superior Stable Self-Healing SnP₃ Anode for Sodium-Ion Batteries. Adv. Energy Mater., 2015, 5 (18), DOI: 10.1002\/aenm..
[24]. X Fan, J Shao, X Xiao, X Wang, S Li, H Ge, L Chen. SnLi4.4 nanoparticles encapsulated in carbon matrix as high performance anode material for lithium-ion batteries. Nano Energy, 2014, 9, 196-203.


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2019-08-30 00:18:18
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xlfan@zju.edu.cn
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铸工楼A302
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2021-01-25 06:07:53
content
范修林，分别于2007年和2012年从浙江大学材料科学与工程系获得学士和博士学位。2013年开始在美国马里兰大学从事博士后研究，2017年4月晋升为研究科学家。2019年入选国家级青年人才计划，同年8月加入浙江大学材料科学与工程学院担任“****”研究员。主要从事二次电池（包括锂离子电池、钠离子电池、钾离子电池等）等能源存储器件的界面工程及相关电解液\/电解质的设计研究，在Science, Nature Nanotech., Nature Mater., Nature Energy等期刊发表SCI论文150余篇（IF>10的80余篇）,引用次数>10000,H因子=55。入选2020年科睿唯安（Clarivate）全球高被引科学家，入选2020年中国新锐科技人物。
研究成果先后被Science,Nature Mater.,Nature Nanotech.,Nature Energy,C&EN,Science Daily,Engineering 360, TechXplore, R&Dmag，人民网等国际顶级期刊和国际、国内知名媒体报道，受到广泛关注。
课题组常年招收博士后以及博士、硕士研究生，欢迎具有化学、有机、高分子、材料等背景且有志从事能源存储研究的同学报考加盟，也欢迎对科学研究感兴趣的本科同学加入研究组参与科研项目。
部分工作介绍见：https:\/\/www.bilibili.com\/video\/BV1uV411d7cL?from=search&seid=5098**5114

Selected Peer-Reviewed Journal Publications：
[1].J. Chen^#, X. Fan^#, Q. Li^#, H. Yang, M.R. Khoshi, Y. Xu, S. Hwang, L. Chen, X. Ji, C. Yang, H. He, C. Wang, E. Garfunkel, D. Su, O. Borodin, C. Wang, Electrolyte Design for LiF-rich Solid-Electrolyte Interfaces to Enable High-performance Microsized Alloy Anodes for Batteries.Nature Energy,2020, In press.
[2]. T. Deng, X. Fan,*L. Cao, J. Chen, S. Hou, X. Ji, L. Chen, E. Hu, S. Li, X. Zhou, D. Su, X. Yang, C. Wang*. Designing in-situ formed interphases enables highly reversible cobalt-free LiNiO2 cathode for lithium metal\/ion battery. Joule, 2019, Accepted. (Corresponding author).
[3]. X. Fan,^#X. Ji,^#L. Chen,^#J. Chen, T. Deng, F. Han, J. Yue, N. Piao, R. Wang, X. Zhou, X. Xiao, L. Chen, C. Wang. All-temperature batteries enabled by fluorinated electrolytes with non-polar solvents. Nature Energy, 2019, Accepted.
[4]. L. Chen,^#X. Fan,^#E. Hu,^#X. Ji, J. Chen, S. Hou, T. Deng, J. Li, D. Su, X. Yang, C. Wang, Achieving high-energy density through increasing the output voltage: a highly reversible 5.3 V battery, Chem, 2019, 5, 896-912. (Co-first author, equal contribution).
[5]. L. Chen,^#X. Fan,^#X. Ji,^#J. Chen, S. Hou, C. Wang, High energy Li metal battery with lithiated host, Joule, 2019, 3, 732-744.
[6]. X. Fan,^#L. Chen,^#O. Borodin, X. Ji, J. Chen, S. Hou, T. Deng, J. Zheng, C. Yang, S. Liou, K. Amine, K. Xu, C. Wang, Non-flammable Electrolyte Enables Li-Metal Batteries with Aggressive Cathode Chemistries, Nature Nanotechnology, 2018, 13 (8) 715-722.
[7]. X. Fan,^#E. Hu,^#X. Ji, Y. Zhu, F. Han, S. Hwang, J. Liu, S. Bak, Z. Ma, T. Gao, S.-C. Liou, J. Bai, X.-Q. Yang, Y. Mo, K. Xu, D. Su, C Wang, High Energy-Density and Reversibility of Iron Fluoride Cathode Enabled Via an Intercalation-Extrusion Reaction, Nature Communications, 2018, 9 (1), 2324
[8]. X. Fan,^#X. Ji,^#F. Han, J. Yue, J. Chen, L. Chen, T. Deng, J. Jiang, C. Wang. Fluorinated solid electrolyte interphase enables highly reversible solid-state Li metal battery, Science Adv., 2018, 4, aau9245.
[9]. T. Deng,^#X. Fan,^#J. Chen, L Chen, C. Luo, X. Zhou, J. Yang, S. Zheng, C. Wang. Layered P2-Type K0.65Fe0.5Mn0.5O2 Microspheres as Superior Cathode for High-Energy Potassium-Ion Batteries, Advanced Functional Materials, 2018, **. (Co-first author, equal contribution).
[10]. J. Zheng,^#X. Fan,^#G. Ji, H. Wang, S. Hou, K.C. DeMella, S.R. Raghavan, J. Wang, K. Xu, C. Wang. Manipulating electrolyte and solid electrolyte interphase to enable safe and efficient Li-S batteries. Nano Energy, 2018, 50, 431-440. Accepted. (Co-first author, equal contribution).
[11]. X. Fan,^#F. Wang,^#X. Ji R. Wang, T. Gao, S. Hou, J. Chen, T. Deng, C. Luo, X. Li, L. Wang, C. Wang, A Universal Organic Cathode for Ultrafast Li‐ and Multivalent Metal Batteries, Angew. Chem. Int. Ed., 2018, 57 (24), 7146-7150.
[12]. J. Chen^#X. Fan,^#X. Ji, T. Gao, S. Hou, X. Zhou, L. Wang, F. Wang, C. Yang, L. Chen, and C. Wang, Intercalation of Bi nanoparticles into graphite enables ultra-fast and ultra-stable anode material for Sodium-ion batteries, Energy & Environmental Science, 2018, 2018, 11, 1218-1225. (Co-first author, equal contribution).
[13]. X. Fan,^#J. Yue,^#F Han, J. Chen, T. Deng, X. Zhou,S. Hou, C. Wang, 'High Performance All-Solid-State Na-S Battery Enabled by Casting-Annealing Technology' ACS Nano 2018, 12, 4, 3360-3368.
[14]. T. Deng,^#X. Fan,^#C. Luo, J. Chen, L. Chen, S. Hou, N. Eidson, X. Zhou, C. Wang. Self-templated Formation of P2-type K_0.6CoO₂ Microspheres for High Reversible Potassium-ion Batteries. Nano Letter, 2018 18, 2, 1522-1529. (Co-first author, equal contribution).
[15]. X. Fan, L. Chen, X. Ji, T. Deng, S. Hou, J. Chen, J. Zheng, F. Wang, J. Jiang, K. Xu, C. Wang. Highly Fluorinated Interphases Enable High-Voltage Li-Metal Batteries. Chem. 2018, 4, 174-185.
[16]. X Huang, X Xiao,* X Wang, Z Yao, C Wang,* X Fan,* L Chen*. Highly synergetic catalytic mechanism of Ni@ g-C3N4 on the superior hydrogen storage performance of Li-Mg-BH system. Energy Storage Materials, 2018, 13, 199-206. (Corresponding author)
[17]. C. Lin,^#X. Fan,^#A. Pearse,S. C. Liou, K. Gregorczyk, M. Leskes, C. Wang, S. B, Lee, G. Rubloff, M. Noked, 'Highly Reversible Conversion-type FeOF Composite Electrode with Extended Lithium Insertion by ALD LiPON protection,' Chem. Mater., 2017, 29 (20), 8780-8791. (Co-first author, equal contribution).
[18]. F. Wang,^#X. Fan,^#T. Gao, W. Sun, Z. Ma, C. Yang, F. Han, K. Xu and C. Wang, 'High-Voltage Aqueous Magnesium-Ion Batteries,' ACS Central Science, 2017, 3 (10), pp 1121–1128. (Co-first author, equal contribution).
[19]. X. Fan, T. Gao, C. Luo, F. Wang, J. Hu, C. Wang, Superior reversible tin phosphide-carbon spheres for sodium ion battery anode, Nano Energy 38 (2017) 350–357.
[20]. X Fan, Y Zhu, C Luo, L Suo, Y Lin, T Gao, K Xu, C Wang. Pomegranate-Structured Conversion-Reaction Cathode with a Built-in Li Source for High-Energy Li-Ion Batteries. ACS nano, 2016, 10, 5567-5577.
[21]. X Fan, Y Zhu, C Luo, T Gao, L Suo, SC Liou, K Xu, C Wang. In situ lithiated FeF3\/C nanocomposite as high energy conversion-reaction cathode for lithium-ion batteries. J. Power Sources, 2016, 307, 435-442.
[22]. X Fan, C Luo, J Lamb, Y Zhu, K Xu, C Wang. PEDOT encapsulated FeOF nanorod cathodes for high energy lithium-ion batteries. Nano letters, 2015, 15, 7650-7656.
[23]. X Fan, J Mao, Y Zhu, C Luo, L Suo, T Gao, F Han, SC Liou, C Wang. Superior Stable Self-Healing SnP₃ Anode for Sodium-Ion Batteries. Adv. Energy Mater., 2015, 5 (18), DOI: 10.1002\/aenm..
[24]. X Fan, J Shao, X Xiao, X Wang, S Li, H Ge, L Chen. SnLi4.4 nanoparticles encapsulated in carbon matrix as high performance anode material for lithium-ion batteries. Nano Energy, 2014, 9, 196-203.


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