李惠，博士，武汉纺织大学校聘教授，硕士生研究生导师。2020年于武汉大学化学与分子科学学院获得博士学位，师从艾新平教授；2020年至2022年在武汉大学化学与分子科学与学院继续从事博士后研究工作，师从曹余良教授。近年来，主要从事电化学能量储存与转化研究，内容涉及锂离子电池和钠离子电池体系。目前以第一作者和通讯作者身份发表SCI论文20篇，其中包括Adv. Mater., Carbon Energy，Energy Storage Mater., Adv. Funct. Mater., Small等，获得授权发明专利4项。作为项目负责人主持国家重点研发计划“新能源汽车”领域子课题（2项）、国家自然科学基金项目（1项）、湖北省自然科学基金项目（1项）、博士后特别资助（1项）、博士后面上项目（1项），获批发明专利4项。

Email：lih@whu.edu.cn

研究领域：

[1]锂离子电池、钠离子电池、锂-硫电池、固态电池

[2]电池安全性技术

主持项目：

[1]导电聚合物PTC材料的高温构型自修复行为及其原位包覆机制（22309138），2024.01-2026.12，国家自然科学基金青年科学基金项目

[2]高安全、可逆温度敏感电极调控机制研究（2024AFB815）2024.01-2026.12，湖北省自科基金面上项目，

[3]锂离子电池用温度敏感电极（2022T150494），2022.07-2023.04，中国博士后科学基金特别支助项目

[4]基于PTC导电聚合物的可逆热响应温度敏感电极（2021M692458），2021.06-2023.04，中国博士后科学基金面上项目

代表性论文：

1. H Li, H Yang, X Ai*;Routes to electrochemically stable sulfur cathodes for practical Li-S batteries.Advanced Materials, 2023, 2305038.

2. Q Ding, Z Jiang, K Chen, H Li*, J Shi, X Ai*, D Xia*. Superior stable high‐voltage LiCoO₂ enabled by modification with a layer of lithiated polyvinylidene fluoride‐derived LiF. Carbon Energy. 2024, doi.org/10.1002/cey2.602.

3. Y Luo, C Sang, K Le, H Chen, H Li* X Ai*. Self-actuating protection mechanisms for safer lithium-ion batteries. J. Energy Chem. 2024, 94:181-98.

4. M Yang; K Chen; H Li*; Y Cao; H Yang; X Ai*; Molecular adsorption‐induced interfacial solvation regulation to stabilize graphite anode in ethylene carbonate‐free electrolytes,Advanced Functional Materials, 2023, 33：2306828

5. H Li, F Wang, C Zhang, W Ji, J Qian, Y Cao, H Yang, X Ai*, A temperature-sensitive poly(3-octylpyrrole)/carbon composite as a conductive matrix of cathodes for building safer Li-ion batteries. Energy Storage Materials, 2019, 17: 275.

6. H Li, X Zhang, C Zhang, Y Cao, H Yang, X Ai*, F Zhong. Building a thermal shutdown cathode for Li-ion batteries using temperature-responsive poly(3-dodecylthiophene). Energy Technology, 2020, 8(7): 2000365.

7. X Wu, M Miao, H Li*, Y Cao, H Yang, X Ai*.A solid-phase conversion sulfur cathode with full capacity utilization and superior cycle stability for lithium-sulfur batteries.Small, 2021, 202106144.

8. S Wang, A Dai, Y Cao, H Yang, A Khalil, J Lu, H Li*, X Ai*. Enabling stable and high-rate cycling of a Ni-rich layered oxide cathode for lithium-ion batteries by modification with an artificial Li⁺-conducting cathode-electrolyte interphase. Journal of Materials Chemistry A, 2021, 9(19): 11623.

9. J Wu, H Li*, Y Liu, Y Ye, Y Yang*. In-situ reconstruction of spinel interface on Li-rich layered cathode material with enhanced electrochemical performances through HEPES and heat treatment strategy. ACS Sustainable Chemistry & Engineering, 2022,10(19): 6165.

10. H Wang, M Miao, H Li*, Y Cao, H Yang, X Ai*. In situ-formed artificial solid electrolyte interphase for boosting the cycle stability of Si-based anodes for Li-ion batteries. ACS Applied Materials & Interfaces, 2021, 13(19): 22505.

11. J Wu, H Li*, Y Liu, Y Ye, Y Yang*. HEPES-assisted co-precipitation synthesis of LiNi_0.5Mn_1.5O₄: Tuning the Mn³⁺ content and electrochemical properties by pH values. Journal of The Electrochemical Society, 2021, 168: 100544.

12. J Wu, H Li*, Y Liu, Y Ye, Y Yang*. Facile synthesis and electrochemical performance of lithium-rich layered oxides with stable hierarchical structure through HEPES-assisted co-precipitation method. Electrochimica Acta, 2022, 401: 139485.

13. J Wu, H Li*, Y Liu, Y Ye, Y Yang*. In-situ reconstruction of spinel interface on Li-rich layered cathode material with enhanced electrochemical performances through HEPES and heat treatment strategy. The Journal of Physical Chemistry C, 2022, 126: 2410.