李享容 副教授
【个人简介】
李享容,女,1988年4月,辽宁省锦州市人,九三学社,博士研究生,副教授,沈阳市高层次人才。从事先进电化学储能系统的开发及关键材料研究以及电化学催化材料的设计和应用。主持国家自然科学基金一项,参与省市级课题多项,发表SCI论文近20篇,合计影响因子>168,授权发明专利4项。
【研究领域及主要项目】
主要研究领域:
1. 先进电化学储能系统的开发及关键材料研究
2. 低成本水系液流电池及新型有机液流电池体系开发和设计。
3. 电化学催化材料的设计和应用
主持科研项目:
1.2019年主持国家自然科学基金青年基金,“全钒液流电池正负极电解液粘度差异下的对流传质过程与容量失衡分析”(21805290)。
2.2020年参与辽宁省面上基金项目,“低成本新型液流电池电化学体系构建与应用研究”(2020-MS-012)。
3.2017年参与辽宁环境科研教育“123工程”项目,“饮用水中致癌阴离子的去除”(CEPF2014-123-1-4)。
【学术成果】
学术论文
1. Y. Qin*, P. Qi, J.L. Zhao, X.R. Li * (通讯作者), N. Wang, Q. Li etc. Measurement and accurate prediction of surface tension for VOSO4-H2SO4-H2O ternary electrolyte system at high-concentration in vanadium redox flow batteries, Journal of Molecular Liquids, 2022, 365: 120079. (中科院2区, IF:6.6)
2. Y.S. Guo, L. Wu, C.L. Jiang, J.L. Zhao, L. Feng, K. Zhang, Y. Qin*, X.R. Li *(通讯作者), J.G. Liu, C.W. Yan, etc, Thermodynamic properties and prediction of viscosity for ternary solution (VOSO4+PAA+H2O) in vanadium flow battery, Journal of Molecular Liquids, 2021, 328: 115510. (中科院2区, IF:6.6)
3. Y.X. Song, X.R. Li* (通讯作者), C. Yan, A. Tang*, Unraveling the viscosity impact on volumetric transfer in redox flow batteries, Journal of Power Sources, 2020, 456: 228004. (中科院1区, IF:9.8)
4. Q.B. Liu, X.R. Li* (通讯作者), C.W. Yan, A. Tang*, A dopamine-based high redox potential catholyte for aqueous organic redox flow battery, Journal of Power Sources, 2020, 460: 228124. (中科院1区, IF:9.8)
5. J. Xiong, S.L. Wang, X.R. Li* (通讯作者), Z.G. Yang, J.G. Zhang, C.W. Yan, A. Tang*, Mechanical behavior and Weibull statistics based failure analysis of vanadium flow battery stacks, Journal of Power Sources, 2019, 412: 272-281. (中科院1区, IF:9.8)
6. X.R. Li, C.L. Jiang, J.G Liu, Y. Qin, Z. Zhang, Z. Liu, J.Z Yang, C.W. Yan, Prediction of viscosity for high-concentrated ternary solution (CH3SO3H+VOSO4+H2O) in vanadium flow battery, Journal of Molecular Liquids, 2020, 297: 111908. (中科院2区, IF:6.6)
7. X.R. Li, C. Jiang, Y. Qin, J. Liu, J. Yang, Q. Xu, C. Yan, Investigation of electrolytes of the vanadium redox flow battery (VII): Prediction of the viscosity of mixed electrolyte solution (VOSO4+H2SO4+H2O) based on Eyring's theory, Journal of Chemical Thermodynamics, 2019, 134: 69-75. (中科院2区, IF:3.3)
8. X.R. Li, J. Xiong, A. Tang, Y. Qin, J.G. Liu, C.W. Yan, Investigation of the use of electrolyte viscosity for online state-of-charge monitoring design in vanadium redox flow battery, Applied Energy, 2018, 211: 1050-1059. (中科院1区, IF:11.5)
9. X.R. Li, J. Zhao, Y. Qin, J.G. Liu, C.W. Yan etc. Investigation of the electrolyte properties for the vanadium redox flow battery (VI): Measurement and prediction of surface tension of aqueous VOSO4 at 283.15 to 313.15 K, Journal of Molecular Liquids, 2017, 225: 296-301. (中科院2区, IF:6.6)
10. X.R. Li, Y. Qin, X.W. Guo, C.W. Yan etc. Investigation of electrolytes of the vanadium redox flow battery (IV): Measurement and prediction of viscosity of aqueous VOSO4 solution at 283.15 to 323.15 K, Journal of Molecular Liquids, 2016, 224: 893-899. (中科院2区, IF:6.6)
11. X.R. Li, Y. Qin, X.W. Guo, C.W. Yan etc. Thermodynamic Investigation of Electrolytes of the Vanadium Redox Flow Battery (V): Conductivity and Ionic Dissociation of Vanadyl Sulfate in Aqueous Solution in the 278.15–318.15 K Temperature Range, Journal of Solution Chemistry, 2016, 45,12: 1879-1889.
12. D.W. Zhang, C.L. Yang, H.W. Wang, Y.K. Yan, X.R. Li, J. Zhang, J. Xiao etc, Regulating crystallinity in linear conjugated polymer to boost the internal electric field for remarkable visible-light-driven disinfection, Journal of Materials Science & Technology, 2023, 137: 26-35. (中科院1区,IF:10.3)
13. X. Jun, Q. Liu, M. Song, X.R. Li, Q. Li, J. Shang, Directing photocatalytic pathway to exceedingly high antibacterial activity in water by functionalizing holey ultrathin nanosheets of graphitic carbon nitride, Water research, 2021,198: 117125. (中科院1区, IF:13.4)
14. Y.X. Song, X.R. Li, J. Xiong, L. Yang, G. Pan, C.W. Yan, A. Tang, Electrolyte transfer mechanism and optimization strategy for vanadium flow batteries adopting a Nafion membrane, Journal of Power Sources, 2020, 449: 227503. (中科院1区, IF:9.8)
15. Y.X. Song, X.R. Li, C.W. Yan, A. Tang, Uncovering ionic conductivity impact towards high power vanadium flow battery design and operation, Journal of Power Sources, 2020, 480: 229141. (中科院1区, IF:9.8)
16. H. Chen, X.R. Li, H. Gao, J.G. Liu, C.W. Yan, A. Tang, Numerical modelling and in-depth analysis of multi-stack vanadium flow battery module incorporating transport delay, Applied Energy, 2019, 247: 13-23. (中科院1区, IF:11.5)
17. J. Xiong, Y.X. Song, S.L. Wang, X.R. Li, J.G. Liu, C.W. Yan, A. Tang, Evaluation of the influence of clamping force in electrochemical performance and reliability of vanadium redox flow battery, Journal of Power Sources, 2019, 431: 170-181. (中科院1区, IF:9.8)
18. Y.X. Song, K. Zhang, X.R. Li, C.W. Yan, Q.B. Liu, A. Tang, Tuning the ferrous coordination structure enables a highly reversible Fe anode for long-life all-iron flow batteries, Journal of Materials Chemistry A, 2021, 9(46): 26354. (中科院1区, IF:14.5)
19. K. Zhang, W. Xiao, X.R. Li, J.G. Liu, C.W. Yan, Highly thermostable expanded polytetrafluoroethylene separator with mussel-inspired silica coating for advanced Li-ion batteries, Journal of Power Sources, 2020, 468: 228403. (中科院1区, IF:9.8)
20. 李享容,秦野,刘建国,严川伟. 钒电池中高浓度VOSO4水溶液粘度预测,储能科学与技术, 2017, 6(4): 776-781.
21. 李享容,何虹祥,许维国,刘建国,秦野,杨家振,许茜,严川伟. 钒电池钒电池五价钒溶液的电导性质, 储能科学与技术, 2015, 4(5), 498-505
22. 许维国,秦野,李享容,刘建国,严川伟. 钒电池正极电解液的表面性质研究, 电源技术, 2016, 140, (11), 2214-2216
授权发明专利及获奖
1. 一种液流电池正负极电解液迁移控制方法,ZL201910826092.1,第三完成人,2022年授权。
2.一种全钒液流电池系统SOC在线检测方法,ZL201710174974.5,第二完成人,2020年授权。
3.一种液流电池多孔电极反应动力学参数测试方法,ZL20191082102.1,第三完成人,2019年授权
4.一种钒电池电解液酸度pH滴定定量测定方法及其应用,CN102288726B,第三完成人,2014年授权。
【教学工作】
本科生课程:主讲《科技论文写作》,《食品工程CAD》,《计算机绘图》。
【联系方式】
邮箱:lixiangrong@lnu.edu.cn
