个人简介：申来法、教授/博导，国家高层次青年人才、德国洪堡学者、江苏省特聘教授、江苏省杰青、南航长空英才。南航材料学院副院长、江苏省高效储能材料与技术重点实验室副主任、南京市青科协副会长。南京航空航天大学和美国华盛顿大学联合培养博士，德国马克斯·普朗克固体研究所(Max Planck Institute for Solid State Research) 博士后、洪堡学者研究员(合作导师: Joachim Maier教授和中科大余彦教授)。从事高功率电源材料与器件及在航空航天领域应用的研究，包括电池电容材料的设计、极端环境下离子存储机理及化学电源的特性。主持国家自然科学基金、某领域重点基金、江苏省创新支撑计划项目、航空科学基金等；以第一/通讯作者在Nature Energy、Nature Communications、Advanced Materials、Angew. Chem. Int. Ed.等国际著名期刊发表多篇论文，多篇论文入选ESI高被引论文，H-index 72，合作撰写英文著作2部。

研究领域

特种电源关键材料与器件及在航空航天领域的应用

   (1) 极端条件下离子输运与存储机理

   (2) 高比特性超级电容器、锂离子电池

获得荣誉和奖励

   (1) 近五年连续入选科睿唯安 (Clarivate Analytics) 全球高被引学者

   (2) 国际电化学会“电化学材料科学奖”（全球每年1名）

   (3) Elsevier中国高被引学者

   (4) 中国青少年科技创新奖

   (5) 江苏省科学技术奖二等奖

   (6) 教育部自然科学二等奖

我们是一个年轻，充满活力、创新动力的课题组！热忱欢迎具有材料、新能源、化学、物理背景的本科生、研究生、博士后、青年教师加入我们团结奋进的科研团队！邮件：lfshen@nuaa.edu.cn

指导学生荣获中国航空学会优秀硕士学位论文、中国科协青年人才托举工程博士生专项计划、江苏省研究生科研创新计划、校博士学位论文创新与创优基金资助；指导本科生、研究生在挑战杯、群星创新奖、航空创意大赛等屡获嘉奖。2025年1名博士生、3名硕士生荣获研究生国家奖学金；2024年1名博士生、2名硕士生荣获研究生国家奖学金。

近几年以第一或通讯作者发表的代表性论文：

1. In Situ Self-Adaptive Structure Evolution Under Volume Fluctuation Toward High-Performance Silicon-Based Anode. Advanced Materials, 2025, e17989.

2. Synergistic Engineering of Nonmagnetic Ions Enables Decoupling of Magnetic Frustration and Structural Dynamics in Cobalt-Free High-Nickel Cathodes. Advanced Materials, 2025, e10041.

3. Tailoring Acid-Salt Hybrid Electrolyte Structure for Stable Proton Storage at Ultralow Temperature. Advanced Materials, 2025, 37, 2412104.

4. Graphene–Vanadium Oxide Heterojunction Boosting Electron–Ion Coupling for Ultrahigh Energy Density Carbon Fiber Structural Supercapacitors. Advanced Materials, 2025, e14323.

5. Multi‐ion Coordinated Water Network in Dilute Acid Electrolytes for Ultralow‐Temperature (≤−80°C) Proton Energy Storage. Angewandte Chemie International Edition, 2025, e202510830.

6. Fluorination from Surface to Bulk Stabilizing High Nickel Cathode Materials with Outstanding Electrochemical Performance. Angewandte Chemie International Edition, 2025, 64, e202420413.
7.  Na⁺-Gradient Spatial Functionalization Enhances Structural Stability of Ultrahigh-Ni Layered Cathodes. Advanced Functional Materials, 2025, e25414.

8.  Synergistic Interfacial-Bulk Solvation Enables Fast-Charging and Low Temperature Li-Ion Batteries. Advanced Functional Materials, 2025, e18935.

9. Unlocking the Potential of Cellulose Separators for High-Rate Performance in Zinc-Ion Batteries via Interface-Engineered Tandem Chemistry. Advanced Functional Materials, 2025, e19971.

10. One-Step Biphasic Interfacial Engineering Stabilizes Single-Crystal Ultrahigh-Nickel Cathodes. Advanced Functional Materials, 2025, e13107.

11. Preparation and Supercapacitive Performance of K⁺-Doped Nickel-Cobalt-Based Perovskite Fluoride/Double Hydroxide Heterojunction with Ultra-Long Cycling Stability and High Mass Loading. Advanced Functional Materials, 2025, 35, 2502658.

12. Photoassisted Li-CO₂ Batteries with Ultrahigh Energy Efficiency and Cycle Stability by a Redox Mediator. ACS Nano, 2025, 19, 7707.

13. 3D-printed redox-active polymer electrode with high-mass loading for ultra-low temperature proton pseudocapacitor. Advanced Powder Materials, 2025, 4, 100247.

14.  Cell to cell: A biomimetic hydrated deep eutectic electrolyte for wide-temperature zinc-ion capacitors. Energy Storage Materials, 2025, 82, 104663.

15. Graphene oxide/carbon fiber composite structural supercapacitor with stable electrochemical performance under surface load bearing. Advanced Composites and Hybrid Materials, 2024, 8, 13.

16. Ultralow-Temperature (≤ −80 ℃) Proton Pseudocapacitor with High Power-Energy Density Enabled by Tailored Proton-Rich Electrolyte and Electrode. Advanced Functional Materials, 2024, 34, 2408465.

17. Dendrite-Free Zn Anode Modified with Prussian Blue Analog for Ultra Long-Life Zn-Ion Capacitors. Advanced Functional Materials, 2024, 34, 2405318.

18. Photo-Energized MoS₂/CNT Cathode for High-Performance Li–CO₂ Batteries in a Wide-Temperature Range. Nano-Micro Letters, 2024, 17, 5.

19. Freestanding molybdenum carbide nanowires electrode for high specific capacity and superior rate performance Li–CO₂ batteries. Energy Storage Materials, 2024, 72, 103740.

20. Discovery of fast and stable proton storage in bulk hexagonal molybdenum oxide. Nature Communications, 2023, 14, 8360.

21. 3D-Printed Proton Pseudocapacitor with Ultra-High Mass Loading and Areal Energy Density for Fast Energy Storage at Low Temperature. Advanced Materials, 2023, 35, 2209963.

22. A Novel Layered WO₃ Derived from An Ion Etching Engineering for Ultrafast Proton Storage in Frozen Electrolyte. Advanced Functional Materials, 2023, 33, 2211491.