李丽,女,1989年4月出生,河南沈丘人,博士研究生,教授,硕士研究生导师
研究领域:新能源汽车动力电池模组结构设计与系统优化
开设(主讲)课程:汽车服务工程,新能源汽车构造与原理
Email:liliorigin@jsut.edu.cn
教育经历
2012.09-2016.08 香港城市大学能源与环境学院(能源与动力工程)哲学博士
2007.09-2011.06 中国科学技术大学高分子科学与工程系(化学)理学士
工作经历
2023.08-至今 江苏理工学院汽车与交通工程学院 教 授
2018.08-2023.08 江苏理工学院汽车与交通工程学院 副教授
2016.12-2018.07江苏理工学院汽车与交通工程学院 讲 师
2016.09-2016.12香港城市大学能源与环境学院 副研究员
2011.09-2012.08 香港城市大学能源与环境学院 研究助理
研究成果
(1) Shan S, Li L*, Xu Q, Ling L, Xie Y, Wang H, Zheng K, Zhang L, Bei S. Numerical investigation of a compact and lightweight thermal management system with axially mounted cooling tubes for cylindrical lithium-ion battery module. Energy, 2023;274:127410. (SCI,高被引论文)
(2) Li L, Huang H, Lin X-M, Fan X, Sun Y, Zhou W, Wang T, Bei S, Zheng K*, Xu Q*, Wang X*, Ni M*. Enhancing the performance of paper-based microfluidic fuel cell via optimization of material properties and cell structures: A review. Energy Conversion and Management. 2024;305:118255.(SCI)
(3) Li L, Xu Q*, Xie Y, Wang X, Zhu K, Zheng K*, Li X, Huang H, Huang Y, Bei S. Narrow middle channel design in counter-flow microfluidic fuel cell with flow-through electrodes. Energy. 2024;288:129790.(SCI)
(4) Li L, Li X, Xie Y, Huang H, Huang Y, Wang H, Bei S, Xu Q*, Wang X*, Zheng K*, Adaptability enhancement of mini-channel cold plate for cylindrical battery module under various ambient temperatures, Applied Thermal Engineering, 2024, Accepted.(SCI)
(5) Ge Q, Ma Z, Yao M, Dong H, Chen X, Chen S, Yao T, Ji X, Li L*, Wang H*. Carbon-Coated Tin-Titanate derived SnO2/TiO2 nanowires as High-Performance anode for Lithium-Ion batteries. Journal of Colloid and Interface Science. 2024;661:888-96.(SCI)
(6) Ma Z, Li L*, Chen S, Yao T, Ge Q, Chen X, Dong H, Lin X, Wang S, Wang H*. Facile synthesis of double yolk-shelled MnO/C microspheres as superior anode materials for lithium-ion batteries. Journal of Energy Storage. 2024;76:109779.(SCI)
(7) Chen S, Li L*, Ge Q, Yao T, Ma Z, Chen X, Dong H, Wang H*. Sn3O4 nanosheets with N-doped carbon coating for high performance lithium storage. Journal of Energy Storage. 2024;76:109651.(SCI)
(8) Wang X*, Hou B, Wu H, Ding Y, Wang W, Li R*, Li L*. Wettability and thermal shock resistance of novel h-BN based ceramic seals for nitrogen oxide sensor. Journal of Non-Crystalline Solids. 2024;631:122919.(SCI)
(9) Wang X*, Kou Z, Wu H, Song Y, Zhao X, Xu S, Li L*, Improvement of thermal cycle stability of YSZ-glass composite seals for intermediate temperature solid oxide fuel cell, Ceramics International, 2023; 49(22): 36734-36742.(SCI)
(10) Xu Q, Xie Y, Huang Y, Li X, Huang H, Bei S, Wang H, Zheng K*, Wang X*, Li L*, Enhancement of thermal management for cylindrical battery module based on a novel wrench-shaped design for the cold plate, Sustainable Energy Technologies and Assessments, 2023; 59: 103421. (SCI).
(11) Xie Y, Li L*, Xu Q*, Li X, Huang H, Huang Y, Bei S, Zhang L, Zheng K*, Effects of module size on the heat dissipation performance of the thermal management system for the battery module with cylindrical cells, Applied Thermal Engineering, 2024; 238: 121958. (SCI).
(12) Li L, Ling L, Xie Y, Zhou W, Wang T, Zhang L, Bei S, Zheng K, Xu Q. Comparative study of thermal management systems with different cooling structures for cylindrical battery modules: Side-cooling vs. terminal-cooling. Energy. 2023;274:127414.(SCI)
(13) Li L, Wang H, Bei S, Li Y, Sun Y, Zheng K*, Xu Q*. Unsymmetrical design and operation in counter-flow microfluidic fuel cell: A prospective study. Energy. 2023;262:125581.(SCI)
(14) Li L, Ling L, Xie Y, Shan S, Bei S, Zheng K*, Xu Q*. Counter-flow microfluidic fuel cell with trapezoidal electrodes. Sustainable Energy Technologies and Assessments. 2023;56:103005.(SCI)
(15) Ling L, Li L*, Xie Y, Wang T, Zheng K, Shan S, Zhang L, Bei S, Xu Q. Optimal design of minichannel cold plate for the thermal management of cylindrical battery modules. Energy Technology. 2023;11(4):2201484.(SCI)
(16) Zheng K, Yan Y, Sun Y, Yang J, Zhu M, Ni M*, Li L*. An experimental study of ammonia decomposition rates over cheap metal catalysts for solid oxide fuel cell anode. International Journal of Hydrogen Energy. 2023;48:19188-95.(SCI)
(17) Yao T, Li L*, Wang H*. Embedding antimony nanoparticles into metal-organic framework derived TiO2@carbon nanotablets for high-performance sodium storage. Chinese Chemical Letters, 2023; 34(10): 108186.(SCI)
(18) Li L, Ling L, Xie Y, Shan S, Bei S, Sun Y, Zheng K*, Xu Q*. Achieving high fuel utilization for microfluidic fuel cell under high flow rate operation. Sustainable Energy Technologies and Assessments. 2022;54:102869.(SCI)
(19) Li L, He Y, Xu Q, Liu T, Bei S, Zheng K, Yang J, Wang H*, Leung MKH*. A paper-based self-pumping microfluidic fuel cell stack with a novel vertical structure. International Journal of Energy Research. 2022;46:8389-97.(SCI)
(20) Li L, Xu Q, Wang H, Bei S, Shen S, He Y, Zheng Y, Wang X, Zheng K*. Boost performance of porous electrode for microfluidic fuel cells: electrochemical modification or structure optimization? International Journal of Energy Research. 2022;46:3324-34. (SCI)
(21) Li L, Xie Y, Shan S, Ling L, Bei S, Zheng K*, Xu Q*. Optimal design of reactant delivery system in microfluidic fuel cell with porous electrodes. International Journal of Energy Research. 2022;46:15535-46.(SCI)
(22) 郑克晴,孙亚,闫阳天,李丽,杨钧*,一种热电协同增强的固体氧化物燃料电池新型连接件的数值模拟,化工学报,2022。
(23) Li L*, Bei S, Liu R, Xu Q, Zheng K, She Y, He Y. Design of a radial vanadium redox microfluidic fuel cell: A new way to break the size limitation. International Journal of Energy Research. 2019;43:3028-37.(SCI)
(24) Li L, Bei S, Xu Q, Zheng K*, Zheng Y. Role of electrical resistance and geometry of porous electrodes in the performance of microfluidic fuel cells. International Journal of Energy Research. 2018;42:1277-86.(SCI)
(25) Li L, Ling L, Shan S, Xie Y, Zhang L, Han B, Bei S, Zheng K*, Xu Q*. In-Depth Analysis of Electrochemical Reaction Rate Distribution in Microfluidic Fuel Cell with Flow-Through Electrodes. Energy Technology. 2023;11:2200982.(SCI)
(26) Yao M, Li L*, Yao T, Wang D, Liu B, Wang H*. Embedding anatase TiO2 nanoparticles into holely carbon nanofibers for high-performance sodium/lithium ion batteries. Journal of Alloys and Compounds. 2022;926:166943.(SCI)
(27) Liu T, He Q, Li L*, Wang H*. Integrating antimony/amorphous vanadium oxide composite structure into electrospun carbon nanofibers for synergistically enhanced lithium/sodium-ion storage. Journal of Colloid and Interface Science. 2022;624:362-9.(SCI)
(28) Lu H, Qian R, Zhu L, Yao T, Li C, Li L*, Wang H*. Phase structure engineering of MnCo2Ox within electrospun carbon nanofibers towards high-performance lithium-ion batteries. Journal of Colloid and Interface Science. 2022;607:171-80.(SCI)
(29) Liu T, Yao T, Li L*, Zhu L, Wang J, Li F, Wang H*. Embedding amorphous lithium vanadate into carbon nanofibers by electrospinning as a high-performance anode material for lithium-ion batteries. Journal of Colloid and Interface Science. 2020;580:21-9.(SCI)
(30) Zheng K, Yue Y, Cai B, Shen S, Li L*, Lu J. Feasibility analysis of applying Taguchi method to fuel cell simulation. International Journal of Energy Research. 2022;46:5362-6.(SCI)
(31) Zheng K*, Sun Y, Shen S, Li L*, Wang S. A novel cooler for the thermal management of solid oxide fuel cell stack. Sustainable Energy Technologies and Assessments. 2021;48:101564.(SCI)
(32) Liu T, Li L*, Yao T, Li Y, Zhu L, Li F, Han X, Cheng Y, Wang H. Integrating amorphous vanadium oxide into carbon nanofibers via electrospinning as high-performance anodes for alkaline ion (Li+/Na+/K+) batteries. Electrochimica Acta. 2021;369:137711.(SCI)
(33) Zheng K, Li L*, Shen S, Wang S. The tortuosity factor effect on solid oxide fuel cell performance. Sustainable Energy Technologies and Assessments. 2020;38:100681.(SCI)
(34) Lu H, Qian R, Yao T, Li C, Li L*, Wang H*. Synthesis of Spherical Carbon-Coated CoP Nanoparticles for High-Performance Lithium-Ion Batteries. Energy Technology. 2021;9:2100605.(SCI)
(35) Li F, Li L*, Yao T, Liu T, Zhu L, Li Y, Lu H, Qian R, Liu Y, Wang H*. Electrospinning synthesis of porous carbon nanofiber supported CoSe2 nanoparticles towards enhanced sodium ion storage. Materials Chemistry and Physics. 2021;262:124314.(SCI)
(36) Xu Q, She Y, Li L*. Model-based analysis of geometrical effects in microfluidic fuel cell with flow-through porous electrodes. International Journal of Modern Physics B. 2019;34:2040022.(SCI)
(37) Liu T, Li L, Liu B, Yao T, Wang H*. Polyvinylpyrrolidone-regulated synthesis of hollow manganese vanadium oxide microspheres as a high-performance anode for lithium-ion batteries. Journal of Colloid and Interface Science. 2022;620:144-52.(SCI)
(38) He Y, Chen K, Leung MKH*, Zhang Y, Li L, Li G, Xuan J, Li J. Photocatalytic fuel cell – A review. Chemical Engineering Journal. 2022;428:131074.(SCI)
(39) Sun Y-Y*, Zhang Q, Fan L, Han D-D, Li L, Yan L, Hou P-Y*. Engineering the interface of organic/inorganic composite solid-state electrolyte by amino effect for all-solid-state lithium batteries. Journal of Colloid and Interface Science. 2022;628:877-85.(SCI)
(40) She Y, Liu J, Wang H, Li L, Zhou J, Leung MKH*. Bubble-like Fe-encapsulated N,S-codoped carbon nanofibers as efficient bifunctional oxygen electrocatalysts for robust Zn-air batteries. Nano Research. 2020;13:2175-82.(SCI)
(41) Zheng K, Xie K, Li L, Shen S*, Wang S. Numerical modeling and parametric analysis of solid oxide fuel cell button cell testing process. International Journal of Energy Research. 2019;43:2635-42.(SCI)
(42) He Y, Li L, Fan W, Zhang C, Leung MKH. A novel and facile solvothermal-and-hydrothermal method for synthesis of uniform BiVO4 film with high photoelectrochemical performance. Journal of Alloys and Compounds. 2018;732:593-602.(SCI)
(43) She Y, Lu Z, Ni M, Li L, Leung MKH*. Facile Synthesis of Nitrogen and Sulfur Codoped Carbon from Ionic Liquid as Metal-Free Catalyst for Oxygen Reduction Reaction. ACS Applied Materials & Interfaces. 2015;7:7214-21.(SCI)
(44) Zheng K, Zhang Y, Li L, Ni M*. On the tortuosity factor of solid phase in solid oxide fuel cell electrodes. International Journal of Hydrogen Energy. 2015;40:665-9.(SCI)
(45) Zheng K, Li L, Ni M*. Investigation of the electrochemical active thickness of solid oxide fuel cell anode. International Journal of Hydrogen Energy. 2014;39:12904-12.(SCI)
(46) She Y, Wang A, Liu J, Zhou J, Li L, Wang H, Leung MKH*. Hierarchical Carbon Nanocages Embedding High-loading Sulfur for Catalyzing Oxygen Reduction Reactions. ChemCatChem. 2021;13:2045-52.(SCI)
(47) He Y, Zhang Y, Li L, Shen W, Li J*. An efficient optofluidic photocatalytic fuel cell with dual-photoelectrode for electricity generation from wastewater treatment. Journal of Solid State Chemistry. 2021;293:121780.(SCI)
(48) Wang T, Zhang L, Li L, Wu J, Wang H. Numerical Comparative Study on the In-Cylinder Mixing Performance of Port Fuel Injection and Direct Injection Gas-Fueled Engine. Energies. 2022;15:5223.(SCI)
(49) Wang J, Xie S, Li L, Li Z, Asiri AM, Marwani HM, Han X, Wang H*. Electrospinning Synthesis of Porous NiCoO2 Nanofibers as High-Performance Anode for Lithium-Ion Batteries. Particle & Particle Systems Characterization. 2019;36:1900109.(SCI)
(50) Xu Q, Xu Z, Li L, Zheng Y*. Fuzzy-logic based Q-Learning interference management algorithms in two-tier networks. Physica A: Statistical Mechanics and its Applications. 2017;484:358-66.(SCI)
(51) Li L, Fan W, Xuan J, Leung MKH*, Zheng K, She Y. Optimal design of current collectors for microfluidic fuel cell with flow-through porous electrodes: Model and experiment. Applied Energy. 2017;206:413-24.(SCI)
(52) Li L, Nikiforidis G, Leung MKH*, Daoud WA. Vanadium microfluidic fuel cell with novel multi-layer flow-through porous electrodes: Model, simulations and experiments. Applied Energy. 2016;177:729-39.(SCI)
(53) Li L, Fan W, Xuan J, Leung MKH*. Dimensionless parametric sensitivity analysis of microfluidic fuel cell with flow-through porous electrodes. Electrochimica Acta. 2016;187:636-45.(SCI)
研究项目
2019 | 国家自然科学基金青年基金 |
2020 | 中国博士后科学基金第67批面上资助二等 |
2017 | 江苏省自然科学基金青年基金 |
2022 | 江苏省中以产业技术研究院开放课题 |
2020 | 江苏省高等学校自然科学研究重大项目A类 |
2022 | 西安交通大学电力设备电气绝缘国家重点实验室开放课题 |
2023 | 常州市科技计划应用基础研究项目 |
2017 | 常州市科技计划应用基础研究项目 |