高明霞，女，工学博士，教授。1990年西安理工大学金属材料系本科毕业。1993年3月于浙江大学材料系硕士毕业后留校任教学和科研工作至今。2000-2004年在浙江大学材料系在职攻读博士学位，获博士学位；2001-2005年间三次（2年半）作为访问学者在葡萄牙Aveiro大学参加中国－葡萄牙政府间合作项目研究。 研究兴趣包括锂离子电池正/负极材料、锂硫电池电极材料；新型高容量轻金属化合物储氢材料；储氢电极合金；陶瓷基复合材料等。作为项目负责人承担（在研和已完成）了包括国家自然科学基金、国家重点研发计划课题和子课题、国家“973"项目子课题、浙江省科技厅公益项目、浙江省科技计划国际合作项目、浙江省自然科学基金重点项目及面上项目、浙江省重点科技创新团队自主设计项目、教育部留学回国人员基金在内的国家级、省部级和来自科研机构及企业的科研项目近三十项。 在Energy Environ Sci、Adv Funct Mater、J Mater Chem A、Small、J Magnesium Alloys、Chem Eng J 等学术期刊发表SCI论文350余篇，发表论文被SCI引用113700余次，论文H因子为61。获授权国家发明专利60余件，美国和日本PCT专利各一件，转让9件。 获浙江省自然科学一等奖（2019，3/5），陕西省自然科学奖一等奖（2023，3/5）, 浙江省高校优秀科研成果一等奖（2011, 3/5), 浙江省自然科学学术奖二等奖（2010)，杭州市自然科学优秀学术成果优秀论文一等奖（2014年）等荣誉。为浙江省教育系统事业家庭兼顾型先进个人（2015年）。

高容量轻金属氢化物储氢材料，镍氢电池储氢电极合金 高性能锂离子电池电极材料，锂硫电池电极材料 陶瓷基复合材料

兼任国际期刊Materials Today Catalysis的Managing Editor, Processes编委，Processes专刊“State of the art of energy storage and conversion materials” Guest Editor、浙江省复合材料学会理事、浙江省铸造学会常务理事，浙江省女科技工作者协会理事，杭州市能源学会理事。

代表性论文（*为通讯作者) [72] Chenhui Yan, Qinong Shao, Yaxiong Yang, Mingxia Gao,* Yue Lin, Mingxi Gao, Zichong Chen, Yiqi Wei, Yongfeng Liu, Wenping Sun, Yinzhu Jiang, Xin Zhang, Jian Chen, Zhijun Wu, and Hongge Pan*, Oxygen Release Suppression and Electronic Conductivity Enhancement for High Performance Li- and Mn-Rich Layered Oxides Cathodes by Chalcogenide Redox Couple and Oxygen Vacancy Generations, Adv. Funct. Mater. 2024, 2310873. [71] Fan Wang, Chenhui Yan, Mingxi Gao, Zhihao Yao, Mingxia Gao*, Yixiang Jing ,Qianwen Sun , Yongfeng Liu , Wenping Sun, Chu Liang *, Xin Zhang, Yinzhu Jiang, Hongge Pan, Multifunctional surface structure with enhanced electron and ion conductivities for superior electrochemical performance of Co-free Li-rich Mn-based layered oxide cathodes, Journal of Alloys and Compounds 976 (2024) 172958. [70]Sun Wang, Meihong Wu, Y.Y. Zhu*, Zhenglong Li, Yaxiong Yang, Y.Z. Li, H.F. Liu, Mingxia Gao*, Reactive destabilization and bidirectional catalyzation for reversible hydrogen storage of LiBH4 by novel waxberry-like nano-additive assembled from ultrafine Fe3O4 particles, Journal of Materials Science & Technology, 173 (2024) 63–71. [69] Meihong Wu, Mingxia Gao *, Shanqing Qu, Yongfeng Liu, Wenping Sun, Chu Liang, Xin Zhang, Zhenglong Li , Yaxiong Yang, Hongge Pan*, LiBH4 hydrogen storage system with low dehydrogenation temperature and favorable reversibility promoted by metallocene additives, Journal of Energy Storage 72 (2023) 108679 【68】Wubin Du, Qinong Shao, Yiqi Wei, Chenhui Yan, Panyu Gao, Yue Lin, Yinzhu Jiang, Yongfeng Liu, Xuebin Yu, Mingxia Gao,* Wenping Sun, and Hongge Pan*, High-Energy and Long-Cycling All-Solid-State Lithium-Ion Batteries with Li- and Mn-Rich Layered Oxide Cathodes and Sulfide Electrolytes， ACS Energy Lett. 2022, 7, 3006−3014. 【67】Xiaoyu (Baohua) Zhang,Xuezhang Xiao, * Jian Chen, Yongfeng Liu, Hongge Pan, Wenping Sun * and Mingxia Gao *, Toward the fast and durable alkaline hydrogen oxidation reaction on ruthenium, Energy & Enviromental Science, 2022, 15, 4155-4526, DOI: 10.1039/d2ee02216h. [66] Zhenglong Li, Shun Wang, Mingxia Gao,* Kaicheng Xian, Yi Shen, Yaxiong Yang, Panyu Gao, Wenping Sun, Yongfeng Liu, and Hongge Pan*, Catalyzed LiBH4 Hydrogen Storage System with In Situ Introduced Li3BO3 and V for Enhanced Dehydrogenation and Hydrogenation Kinetics as Well as High Cycling Stability, ACS Appl. Energy Mater. 2022, 5, 1226−1234 [65] Zhenglong Li, Mingxia Gao,*, Shun Wang, Xin Zhang, Panyu Gao, Yaxiong Yang, Wenping Sun, Yongfeng Liu, Hongge Pan*, In-situ introduction of highly active TiO for enhancing hydrogen storage performance of LiBH4, Chemical Engineering Journal 433 (2022) 134485. [64] Zhe Dong, Wubin Du, Haitao Gu, Yingying Long, Chenyang Zhang, Gairong Chen,Zhenhe Feng, Wenping Sun, Yinzhu Jiang, Yongfeng Liu, Yaxiong Yang, Jiantuo Gan,*Mingxia Gao,* and Hongge Pan*, A Unique Structural Highly Compacted Binder-Free Silicon-Based Anode with High Electronic Conductivity for High-Performance Lithium-Ion Batteries, Small Struct. 2022, 3, 2100174. [63]Chenhui Yan, Qinong Shao, Zhihao Yao, Mingxi Gao, Chenyang Zhang, Gairong Chen, Qianwen Sun, Wenping Sun, Yongfeng Liu, Mingxia Gao,* and Hongge Pan*, Multifunctional Surface Construction for Long-Term Cycling Stability of Li-Rich Mn-Based Layered Oxide Cathode for Li-Ion Batteries, Small 2022, 2107910. [62]Kaicheng Xian, Meihong Wu, Mingxia Gao,* Shun Wang, Zhenglong Li, Panyu Gao, Zhihao Yao, Yongfeng Liu, Wenping Sun, and Hongge Pan*, A Unique Nanoflake-Shape Bimetallic Ti–Nb Oxide of Superior Catalytic Effect for Hydrogen Storage of MgH2, Small 2022, 2107013. [61] Wubin Du, Qinong Shao, Yiqi Wei, Chenhui Yan, Panyu Gao, Yue Lin, Yinzhu Jiang, Yongfeng Liu, Xuebin Yu, Mingxia Gao,* Wenping Sun, and Hongge Pan*, High-Energy and Long-Cycling All-Solid-State Lithium-Ion Batteries with Li- and Mn-Rich Layered Oxide Cathodes and Sulfide Electrolytes, ACS Energy Lett. 2022, 7, 3006−3014. [60] Shun Wang, Mingxia Gao ∗, Zhihao Yao, Kaicheng Xian, Meihong Wu, Yongfeng Liu*, Wenping Sun, Hongge Pan*, High-loading, ultrafine Ni nanoparticles dispersed on porous hollow carbon nanospheres for fast (de)hydrogenation kinetics of MgH2, Journal of Magnesium and Alloys,10 (2022) 3354–3366, https://doi.org/10.1016/j.jma.2021.05.004 [59]Shun Wang, Mingxia Gao*, Zhihao Yao, Yushan Liu, Meihong Wu, Zhenglong Li, Yongfeng Liu*, Wenping Sun, Hongge Pan*, A nanoconfined-LiBH4 system using a unique multifunctional porous scaffold of carbon wrapped ultrafine Fe3O4 skeleton for reversible hydrogen storage with high capacity, ChemicalEngineeringJournal,428(2022)131056. [58] Yushan Liu,Shun Wang,Zhenglong Li,Mingxia Gao*,Yongfeng Liu, Wenping Sun and Hongge Pan, Enhanced Hydrogen Storage Performance of MgH2 by the Catalysis of a NovelIntersected Y2O3/NiO Hybrid,Processes 2021,9,892.https://doi.org/10.3390/pr9050892. [57] Zhihao Yao, Panyu Gao Yaxiong Yang, Mingxia Gao*, Chenhui Yan, Qinong Shao, Shun Wang, Fan Wang, Yongfeng Liu and Hongge Pan,A novel surface modification strategy for Li-rich Mn-based layered oxide cathodes of high-capacity and high-cyclic stability by an additive of LiBH4 to the electrolyte,Functional Materials LettersVol. 14, No. 5 (2021) 2140003(Invited paper) [56]K. C. Xian, B. Nie, Z. G. Li, M. X. Gao*, Z. L. Li, C. X. Shang, Y. F. Liu*, Z. X. Guo and H. G. Pan*. TiO2 decorated porous carbonaceous network structures offer confinement, catalysis and thermal conductivity for effective hydrogen storage of LiBH4. Chemical Engineering Journal,407(2021)127156 [55]Shun Wang, Mingxia Gao*, Kaicheng Xian, Zhenglong Li, Yi Shen, Zhihao Yao, Yongfeng Liu, Hongge Pan*, LiBH4 nanoconfined in porous hollow carbon nanospheres with high loading, low dehydrogenation temperature, superior kinetics and favorable reversibility；ACS Applied Energy Materials, 2020, 3, 3928−3938. [54] Zhenglong Li, Mingxia Gao*, Jian Gu, Kaicheng Xian, Zhihao Yao, Congxiao Shang, Yongfeng Liu, Zhengxiao Guo, and Hongge Pan*, In situ introduction of Li3BO3 and NbH leads to superior cyclic stability and kinetics of a LiBH4‑based hydrogen storage system, ACS Applied Materials Interfaces, 2020, 12, 893−903.