个人信息姓名:方姗
国籍:中国
导师类型:博士生导师
性别:女
毕业院校:南京航空航天大学
学位:博士
电子邮件:fangshan@ncu.edu.cn
所在单位:物理与材料学院
职工类别:教职工
职称:教授
学科:工学
办公地址:Nanchang University
岗位类别:教学科研岗
姓名拼音:fang shan
所在系:材料系
基本信息方姗博士,南昌大学特聘教授,博士生导师,江西省“双千计划”青年领军人才,江西省高比能高安全固态电池关键材料与器件工程研究中心主任,德国卡尔斯鲁厄理工学院博士后,南京航空航天大学博士。先后在国际顶级研究机构美国劳伦斯伯克利国家实验室(2015.10-2017.7)及德国卡尔斯鲁厄理工学院亥姆霍兹研究所(2018.10-2020.10)从事科研交流及研究工作,致力于电化学储能材料的新理论、新方法和新技术,及锂离子电池,锂金属电池,固态电池等能量转化与储存器件中功能结构材料的设计制备、体系构建和性能提升等方面的基础科学研究。目前在Advanced Energy Materials,Advanced Functional Materials, ACS Nano,Nano Energy,Energy Storage Materials等顶级期刊以第一作者及通讯作者身份发表SCI论36篇,2篇高被引热点论文,参与发表论文60余篇,参与英文专著编著2章节,由Elsevier及Wiley出版,主编教材1部。主持国家自然科学基金3项,省部级科研项目7项,企业横向1项。参与国家重点研发计划、德国-美国教育部联合项目等。目前是中国化学会,ACS化学会及ECS电化学会会员,《Frontiers in Energy Research》客座编辑,《eScience》青年编委,是多个本专业国际期刊审稿人。
[1] 201510-201707 美国劳伦斯伯克利国家实验室 博士研究生
[2] 201209-201804 南京航空航天大学 博士研究生
[3] 200809-201206 宁夏大学 大学本科
[1] 2018.10-2020.10 博士后 德国卡尔斯鲁厄理工学院
[2] 202101-* 南昌大学 南昌大学
主持国家自然科学基金面上项目,52472297,2025.01-2028.12,在研
主持国家自然科学基金地区基金,52161039,2022.01-2025.12,结题
主持国家自然科学基金青年基金,52002176,2021.01-2023.12,结题
主持江西省“双千计划”青年项目,jxsq2020101056, 2021.01-2025.12,结题
主持江西省自然科学基金优秀青年基金项目,20252BAC210010,2025.06-2028.06,在研
主持江西省自然科学基金面上项目,20224BAB204011,2023.01-2025.12,结题
主持江西省自然科学基金青年基金,20212BAB214054,2022.01-2024.12,结题
主持江西省远航计划项目
主持宁夏煤化工国家重点实验室开放基金,2022-k62, 2022.01-2023.12,结题
主持原位固化技术固态电解质开发,企业横向项目
主持中德博士后国际交流项目,2018.10-2020.09,结题
参与国家重点研发计划国际合作项目, 新型二维共轭结构材料的可控制备及其应用的基础问题研究,2022,在研
论文成果
2026年
(1) Chao Ye, Wenqin Ling, Xiao Huang, Shan Fang*, Xiaowei Huang*, Naigen Zhou*,Orbital regulation–enabled suppression of Jahn–Teller distortion for structurally robust LiMnFePO4 cathodes,Energy Storage Materials,2026,86, 105030. https://doi.org/10.1016/j.ensm.2026.105030
(2) Runze Liu, Yifan Wu, Shan Fang*, Xue Li, Chengjin Peng, Liqiang Kang, Xiang Liu*, Naigen Zhou*, Yen Wei*, pH-Regulated Organic-Inorganic Additive Engineering for Dendrite-Free and Long-Life Aqueous Zinc-Ion Batteries, Advanced Functional Materials, 2026. https://doi.org/10.1002/adfm.74991
(3) Kaiqi Wu, Chengjin Peng, Fanglin Wu, Liyuan Huang, Liang Lan, Liqiang Kang, Yecheng Liu, Xin Ao, Shan Fang*,Interface engineering of Li1.5Al0.5Ge1.5(PO4)3 electrolytes via in-situ polymer–cerium hybrid interlayers for high-performance all-solid-state lithium metal batteries,Journal of Energy Storage, 2026, 149, 120061. https://doi.org/10.1016/j.est.2025.120061
2025年
(4) Wentao Zhou, Huasong Wang, Chengjin Peng, Yibei Zhang, Shangquan Zhao*, Naigen Zhou*, Shan Fang*,Dendrite suppression in anode-free lithium metal batteries: Stabilization of the electrode-electrolyte interphase enabled by 3D Nb2O5@ C conductive frameworks, Journal of Energy Storage, 2025, 141, 119553. https://doi.org/10.1016/j.est.2025.119553
(5) Pengfei Cao, Shangquan Zhao, Yong Li, Yi Zhou, Fanglin Wu*, Shan Fang*,Tantalum-Adapted Single-Crystal Ultra-High Nickel Cathode Enables High Stability Fast Charging in Lithium Metal Batteries,Journal of Energy Storage, 2025, 109, 115213. https://doi.org/10.1016/j.est.2024.115213
(6) Li Xue, Luo Fei, Yu Miaomiao, Liu Runze, Zhao Shangquan, Fang Shan*,Enhancing Lithium Metal Battery Performance with a Perfluorinated Bisalt Electrolyte Achieving High-Voltage Stability up to 4.8 V, Energy Storage Materials, 2025, 75, 104048. https://doi.org/10.1016/j.ensm.2025.104048
(7) Miaomiao Yu, Qiaoan Liu, Yuxin Rao, Huasong Wang, Pengfei Liu, Xue Li, Yan Zhang*, Shan Fang*, High energy electron beam irradiation on the electrolyte enables fast-charging of lithium metal battery with long-term cycling stability, 2025, Physical Chemistry Chemical Physics, 2025, 27, 6064-6071. https://doi.org/10.1039/D5CP00021A
(8) Xue Li, Fei Luo, Naigen Zhou, Henry Adenusi, Shan Fang*, Fanglin Wu*, Stefano Passerini*, Weakly Solvating Electrolytes for Lithium and Post-Lithium Rechargeable Batteries: Progress and Outlook, Advance Energy Materials, 2025, 15,2501272. https://doi.org/10.1002/aenm.202501272
(9) Lei Liu, Kaiqi Wu, Liyuan Huang, Liang Lan, Dong Cheng, Hanyu Yi, Xin Ao, Yecheng Liu, Chengjin Peng, Shan Fang*, Flexible sandwich-structured LLZTO/P(VDF-TrFE) composite electrolyte membrane for enhanced cycling stability in lithium metal batteries, Journal of Power Sources, 2025, 652, 237583. https://doi.org/10.1016/j.jpowsour.2025.237583
(10) Wenqin Ling, Shan Fang*, Wentao Zhou, Chao Ye, Li Wang*, Naigen Zhou*, Xiangming He*, From Lab to Plant: Technical Barriers in Scaling Up LiMnyFe1-yPO4 Production - A Process Engineering Perspective, Advance Energy Materials, 2025, 15,2502720. https://doi.org/10.1002/aenm.202502720
(11) Runze Liu, Xue Li, Chengjin Peng, Yanting Shi, Xiang Liu*, Shan Fang*,Long-Cycle Aqueous Zinc-Ion Batteries Enabled by Interfacial Engineering via Hydrogen-Bond Disruption and pH Stabilization,ACS Applied Materials & Interfaces,2025, 17, 45, 62228–62238. https://doi.org/10.1021/acsami.5c18678
(12) Liyuan Huang, Liang Lan, Yifan Wu, Xin Ao, Naigen Zhou, Yi Zhou, Chengjin Peng, Yecheng Liu, Shan Fang*, Stefano Passerini*, Conformal Polymer Electrolyte Enabled by Nitrile Coordination for Long‐Cycle Solid‐State Lithium Metal Batteries, Advanced Functional Materials, 2025, e29705. https://doi.org/10.1002/adfm.202529705
2021-2024年
(13) Shan Fang , Yan Zhang , Xiang Liu,Lithium anode in carbonate-based electrolyte: High-performance by self-protected solid-electrolyte-interphase, Chemical Engineering Journal,2021,426,131880. (JCR一区,TOP期刊) https://doi.org/10.1016/j.cej.2021.131880
(14) Shan Fang, Fanglin Wu, Maider Zarrabeitia, Matthias Kuenzel, Daniel Roscher, Xinpei Gao, Jae‐Kwang Kim, Guk‐Tae Kim*, Stefano Passerini*,Enhancing the Interfacial Stability of High‐Energy Si/Graphite||LiNi0.88Co0.09Mn0.03O2 Batteries Employing a Dual‐Anion Ionic Liquid‐based Electrolyte, Batteries & Supercaps, 2022, 5, e202200286.(JCR二区) https://doi.org/10.1002/batt.202200286
(15) Shan Fang, Fanglin Wu, Shangquan Zhao, Maider Zarrabeitia, Guk-Tae Kim, Jae-Kwang Kim, Naigen Zhou,* and Stefano Passerini*,Adaptive Multi-Site Gradient Adsorption of Siloxane-Based Protective Layers Enable High Performance Lithium-Metal Batteries, Advanced Energy Materials. 2023, 2302577.(JCR一区,TOP期刊) https://doi.org/10.1002/aenm.202302577
(16) Yan Zhang, Naigen Zhou, Xiang Liu, Xinhua Gao, Shan Fang*, Three-dimensional porous structured germanium anode materials for high-performance lithium-ion full-cells, Dalton Transactions, 2022, 51, 14767-14774. (JCR一区,TOP期刊) https://doi.org/10.1039/D2DT01528E
(17) Fanglin Wu, Zhen Chen, Shan Fang*, Wenhua Zuo, Guk-Tae Kim, Stefano Passerini*,The role of ionic liquids in resolving the interfacial chemistry for (quasi-) solid-state batteries,Energy Storage Materials,2023,63,103062.(JCR一区,TOP期刊) https://doi.org/10.1016/j.ensm.2023.103062
(18) Pengfei Liu, Yuxin Rao, Huasong Wang, Xue Li, Xiaomin Wang, Miaomiao Yu, Yong Li, Zhihao Yue, Fanglin Wu*, Shan Fang*,Fluorinated Carbonate-aided Ionic-liquid Electrolyte Enables High-capacity Lithium-metal Batteries,Batteries & Supercaps,2023, 7(1), e202300353. (JCR二区) https://doi.org/10.1002/batt.202300353
(19) Shan Fang, Huasong Wang, Shangquan Zhao, Miaomiao Yu, Xiang Liu, Yong Li, Fanglin Wu, Wenhua Zuo, Naigen Zhou, Gregorio F Ortiz,In Situ Formation of Heterojunction in Composite Lithium Anode Facilitates Fast and Uniform Interfacial Ion Transport, Small, 2024, 2402108.(JCR一区,TOP期刊) https://doi.org/10.1002/smll.202402108
(20) Yuxin Rao, Xue Li, Shangquan Zhao, Pengfei Liu, Fanglin Wu, Xiang Liu, Naigen Zhou, Shan Fang*, Stefano Passerini*, Fluorinated electrolyte formulations design enabling high-voltage and long-life lithium metal batteries, Nano Energy, 2024, 123, 109362. (JCR一区,TOP期刊) https://doi.org/10.1016/j.nanoen.2024.109362
(21) Shaoqing Li, Yong Ye, Xiang Liu, Xuerui Yang*, Shan Fang*, Naigen Zhou*, Preparation of carbon‐coated Fe2O3@Ti3C2Tx composites by mussel‐like modifications as high‐performance anodes for lithium‐ion batteries, 2024, Chemistry–A European Journal, 10(30), e202302768.(JCR二区) https://doi.org/10.1002/chem.202302768
(22) Pengfei Liu, Fei Luo, Yuxin Rao, Huasong Wang, Xue Li, Miaomiao Yu, Xiang Liu*, Shangquan Zhao*, Shan Fang*, Difluorobenzene as an Antisolvent for Fluorinated Electrolyte to Achieve Unparalleled Cycle Life of Lithium Metal Battery, ACS Applied Materials & Interfaces, 2024, 16, 46, 63628–63637. (JCR一区,TOP期刊) https://doi.org/10.1021/acsami.4c15079
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