姓名：刘敏

职称：讲师

职位：储能科学与工程教研室副主任

邮箱：liumin@nbut.edu.cn

办公室：前湾校区新能源产业技术创新实践基地 410 室

研究方向：锂/钠离子电池正极材料、固态电解质

个人简介：

刘敏，女，中共党员，工学博士，宁波工程学新能源学院教师。长期从事材料科学与工程专业的教学科研工作。已在Small、Chemical Engineering Journal和ACS Sustainable Chemistry & Engineering等国际知名期刊上发表SCI论文20余篇，以第一作者或通讯作者发表论文8篇，申请国家发明专利3项，主持或参与国家自然科学基金项目及省市级项目多项。

代表性论文：

1. M. Liu, B. Chen, T. Wu, H. Li, G. Wang, M. Chen*, Z. Yang, X. Wang*, rGO-encapsulated Co, Ni dual‐doped FeF₃·0.33H₂O nanoparticles enables a high-rate and long-life iron (III) fluoride–lithium battery, Chem. Eng. J., 2023, 451,138774.

2. M. Liu, J. Liu, B. Chen, H. Li, G. Wang, M. Chen*, Z. Yang, X. Wang*, Unveiling the role and mechanism of Nb doping and in-situ carbon coating on improving lithium-ion storage characteristics of rod-like morphology FeF₃·0.33H₂O. Small, 2022, 18, 2105193.

3. M. Liu, Q. Wang, B. Chen, H. Li, G. Wang, M. Chen, Z. Yang*, X. Wang*, Band-gap engineering of FeF₃·0.33H₂O nanosphere via Ni doping as a high-performance lithium-ion battery cathode. ACS Sustainable Chem. Eng., 2020, 8, 15651-15660.4. M. Liu, L. Liu, M. Li, B. Chen, H. Lei, H. Hu, X. Wang*, Preparation and Li/Na ion storage performance of raspberry-like hierarchical FeF₃·0.33H₂O micro-sized spheres with controllable morphology. J. Alloy Compd., 2020, 829, 154215.

5. M. Liu, X. Wang*, S. Wei, H. Hu, R Zhang, L Liu, Cr-doped Fe₂F₅·H₂O with open framework structure as a high-performance cathode material of sodium-ion batteries, Electrochim. Acta, 2018, 269, 479-489.

6. M. Liu, X. Wang*, R. Zhang, L. Liu, H. Hu, Y. Wang, S. Wei, Hollow porous FeF₃·0.33H₂O microspheres by AlPO4 coating as a cathode material of Na-ion batteries. J. Energy Storage, 2018, 18, 103–111.

7. M. Liu, L. Liu, H. Hu, Z. Yang, Y. Wang*, X. Wang*, Flower-like mesoporous FeF₃·0.33H₂O 3D hierarchical nanostructure: size-controlled green-synthesis and application as cathodes for Na-ion batteries. ACS Appl. Energy Mater., 2018, 1, 7153-7163.

8. L. Song, T. Long, M. Xiao, M. Liu*, T. Zhao, Y. Kuang, L. Jiang, Z. Xiao*, Novel high-ionic-conductivity solid polymer electrolyte based on Cu-Al bimetallic metal-organic framework fabricated through molecular grafting, T Nonferr. Metal. Soc., 2023, 1-39.