导师简介
卢国龙,男,1988年生,工学博士,教授,博士生导师。美国科罗拉多大学波尔德分校留学两年,获得吉林省域内拔尖人才、吉林省优秀青年基金、吉林省自然科学二等奖(第一获奖人)、吉林大学励新优秀青年(重点阶段)、吉林大学唐敖庆青年学者、吉林大学优青培育人才。
近5年以第一或通讯作者在Applied Energy、Energy、Energy Conversion and Management、Advanced Functional Materials、Applied Catalysis B: Environmental、Fuel等期刊发表SCI论文50余篇,单篇最高影响因子20.3,一区TOP期刊26篇,Google Scholar被引1569次,ESI高被引论文1篇(167次),H-index = 25,获授权国家发明专利15项,获国际南非专利1项,申请美国专利1项,获计算机软件著作权2项。主持国家自然青年基金、面上基金等国家项目2项,吉林省科技厅优秀青年基金、面上基金、科技攻关和重点研发等项目4项,吉林省教育厅工程领域重点项目1项,以及北京华奥汽车服务有限公司企业委托研发百万级以上横向课题2项。兼任国际仿生工程学会(ISBE)青年委员会副秘书长,Advanced Bionics、Carbon Neutralization和吉大工学版青年编委会委员,担任Advanced Functional Materials, Applied Energy,Energy和Energy Conversion and Management等能源类1-2区期刊审稿人。
联系方式:
Email:guolonglu@jlu.edu.cn电话:15764336599
地址:长春市人民大街5988号,吉林大学南岭校区仿生楼311室
硕士/博士研究生招生专业:仿生科学与工程、机械(专硕/工程博士)
热烈欢迎机械、材料、仿生、控制等相关专业的学生报考。
一、研究方向
1、车载传质传热部件仿生设计优化及制造:针对车载双极板、散热器等部件,受鱼鳃、肺、树叶等传质器官的启发,设计高传质、低压降的仿生流场流道,通过传统CFD计算、拓扑优化手段优化得到最优设计参数,最终制造出新型双极板并实际检测电池性能。结合人工智能大模型嵌入,开发自动化优化框架。
学生兴趣及能力要求:熟练使用三维建模软件、流体仿真软件,掌握学习人工智能算法及编程,了解一定的电池测试知识。
2、氢燃料电池堆金属双极板表面耐腐蚀涂层构建:针对金属双极板使用寿命问题,开展金属双极板表面碳涂层制备工艺研究。
学生兴趣及能力要求:具有较强的材料学和电化学知识,有一定材料或化学背景的学生优先。
3、小型电堆集成及应用:针对特种机器人动力空间和使用方式的特殊要求,合理排布、科学控制集成出特异形状的小型氢动力电堆系统。
学生兴趣及能力要求:需要具有控制、机械学科相关背景。
二、科研项目
纵向科研项目:
[1]. 国家自然科学基金面上基金项目,52075214,车载燃料电池双极板仿肺三维流场传质增效设计与制造,2021/01-2024/12,58万元,项目负责人;
[2]. 吉林省科技厅重点研发-工业领域,20220201115GX,石墨基复合双极板仿生变径流场设计与模压制造,2022/07-2025/06,95 万元,项目负责人;
[3]. 吉林省科技厅自然科学基金(学科布局项目),20200201058JC,质子交换膜燃料电池双极板流场仿生设计与制造,2020/01-2023/12,8万元,项目负责人;
[4]. 国家自然科学基金青年基金项目,51605188,鱼鳃的气体传质机理研究及仿生自呼吸空气阴极制备,2017/01-2019/12,24万元,项目负责人;
[5]. 吉林省科技计划项目-优秀青年项目,20170520088JH,生物质能源化装置关键部件的仿生设计与制备,2017/01-2018/12,8万元,项目负责人;
[6]. 吉林省教育厅“十三五”科学技术项目,JJKH20180093KJ,能源装置自呼吸空气阴极的仿生设计及微纳制造,2018/01-2019/12,4万元,项目负责人;
[7]. 第65批中国博士后基金面上资助一等资助,2019M650060,12万元,项目负责人;
横向科研项目:
[1]. 2020220002000260, S2198,车载氢燃料电堆设计及开发项目管理, 2020/09-2023/09, 200万元, 项目负责人;
[2]. 2017220101001180, K146,车载储氢罐的仿生设计与制造, 2018/08-2020/08, 100万元, 项目负责人;
三、代表性论文
[1] Mingxin Liu, Tongxi Zheng, Yang Luan, Xunkang Su, Seong Hyuk Lee, Yuanzhu Xin, Mi Wang, Guolong Lu*, Zhenning Liu*. A novel anode-sharing configuration to enhance the volumetric power density of short stack of proton exchange membrane fuel cells: An experimental and numerical simulation study. Energy Conversion and Management. 2025, 324, 119329(SCI, IF= 9.9)
[2] G Lu, H Cui, T Zhao, W Yang, M Wang, Z Liu, S Niu, L Ren. Cilia‐Inspired Functional Channels for High‐Speed and Directional PEMFC Drainage. Advanced Functional Materials, 2024, 2416005 (SCI, IF= 18.5)
[3] L Yang, T Zhao, W Yang, H Cui, W Fan, K Jiang, D Zheng, M Wang, G Lu*. Z Liu*. Design and preparation of composite bipolar plates with synergistic conductive networks of graphite and metal foam. International Journal of Hydrogen Energy.20242, 92, 165-173 (SCI, IF= 8.1)
[4] Y Luan, S Jia, T Zhao, W Fan, T Zheng, Y Feng, Z Liu*, G Lu*. Flow flied inspired by sieve plate structure of plant leaf veins for proton exchange membrane fuel cells. International Journal of Hydrogen Energy, 2024, 85, 560-570(SCI, IF= 8.1)
[5] W Yang, H Cui, M Wang, X Weng, G Lu*, Z Chang*, Y Sun. Preparation and regulation of high-strength and high-permeability porous ceramic/PDMS composite membranes for gas-liquid separation. Applied Surface Science, 2024,161114 (SCI, IF= 6.3)
[6] D Zheng, S Liang, T Zhao, L Sun, W Fan, K Jiang, H Cui, L Yang, S Jia, G Lu*, Z Liu*. Bio-inspired sinusoidally-waved flow fields with exchange channels to enhance PEMFC performance. Fuel, 2024, 367, 131552(SCI, IF= 6.7)
[7] X Su, M Liu, W Fan, H Cui, D Lu, T Zheng, Y Luan, G Lu*, Z Liu*,AI optimization framework using digital layouts of array structures: A case study for fuel cells, Fuel, 2024, 373, 132333(SCI, IF= 6.7)
[8] ZD Wang, K Bo, CL Zhong, YH Xin, GL Lu, H Sun, S Liang*, ZN Liu*, HY Zang*. Multifunctional Polyoxometalates‐Based Ionohydrogels toward Flexible Electronics. Advanced Materials, 2024,36 (25), 2400099(SCI, IF= 27.4)
[9] G Lu, M Liu, X Su, T Zheng, Y Luan, W Fan, H Cui, Z Liu. Study on counter-flow mass transfer characteristics and performance optimization of commercial large-scale proton exchange membrane fuel cells. Applied Energy 2024, 359, 122743(SCI, IF= 10.1)
[10] HW Li, L Wang, JN Liu, Y Yang*, GL Lu*. Maximizing power density in proton exchange membrane fuel cells: An integrated optimization framework coupling multi-physics structure models, machine learning, and improved gray wolf optimizer. Fuel. 2024, 358, 130351(SCI, IF= 7.4)
[11] G Lu, W Fan, D Lu, T Zhao, Q Wu, M Liu, Z Liu*, Lung-inspired hybrid flow field to enhance PEMFC performance: A case of dual optimization by response surface and artificial intelligence, Applied Energy. 2024, 355, 122255(SCI, IF= 10.1)
[12] G Lu, X Men, R Tang, Z Wang, H Cui, T Zheng, M Wang, H Yang, Z Liu*. Bionic Fe-NC catalyst with abundant exposed Fe-Nx sites and enhanced mass transfer properties for efficient oxygen reduction. Journal of Colloid and Interface Science. 2024, 655, 90-99 (SCI, IF= 9.4)
[13] K Jiang, T Zhao, W Fan, Z Liu*, G Lu*. Ramped step flow field to enhance mass transfer capacity and performance for PEMFC. Renewable Energy. 2023. 219, 119489(SCI, IF= 9)
[14] T Zhao, K Jiang, W Fan, D Lu, D Zheng, H Cui, L Yang, G Lu*, Z Liu*. Nature-inspired hybrid wettability surface to enhance water management on bipolar plates of PEMFC. Chemical Engineering Journal. 2023, 466, 143288(SCI, IF= 13.3)
[15] X Men, R Tang, H Yang, M Wang, H Sun, S Liang, Z Liu*, G Lu*. Bio-inspired micro-reactor mimicking multi-ridged mitochondrial intimae for efficient oxygen reduction. Applied Surface Science. 2023, 610, 155469(SCI, IF= 6.7)
[16] MX Liu, WX Fan, GL Lu*. Study on Mass Transfer Enhancement of Locally Improved Structures and the Application in Serpentine and Parallel Flow Fields of PEM Fuel Cells. International Journal of Hydrogen Energy. 2023. 48, 50, 19248-19261 (SCI, IF= 7.139)
[17] HongWei Li*, BX Qiao, JN Liu, Y Yang, W Fan, GL Lu*, A data-driven framework for performance prediction and parameter optimization of a proton exchange membrane fuel cell, Energy Conversion and Management. 2022. 271, 116338(SCI, IF= 9.9)
[18] G Lu, H Cui, X Weng, Y Sun*, Z Chang*, Investigation and optimization of PDMS/PES membrane on morphology and performance for methane-water separation, Microporous and Mesoporous Materials. 2022. 341, 112078(SCI, IF= 5.876)
[19] HW Li*, JN Liu, Y Yang, W Fan, GL Lu*. Research on mass transport characteristics and net power performance under different flow channel streamlined imitated water-drop block arrangements for proton exchange. Energy .2022.251, 123983(SCI, IF= 8.857)
[20] H Li*, J Ren, D Yin, G Lu*, C Du, X Jin, Y Jia*, Effects of inclination angle and heat power on heat transfer behavior of flat heat pipe with bionic grading microchannels. Applied Thermal Engineering.2022. 206, 118079(SCI, IF= 6.465)
[21] Xin Men, RuoqiTang,HaoqiYang,Mi Wang, Song Liang, Hang Sun, Zhenning Liu*,Guolong Lu*, Bio-inspired Micro-reactor Mimicking Multi-ridged Mitochondrial Intimae for Efficient Oxygen Reduction, Applied Surface Science, 2022. 610(9):155469 (SCI, IF= 7.392)
[22] Xin Men, Zhiyuan Li, Wei Yang, Mi Wang, Song Liang, Hang Sun, Zhenning Liu*, Guolong Lu*. 3D-Printed Bio-inspired Multi-channel Cathodes for Zinc-air Battery Applications. Journal of Bionic Engineering. 2022, 19, 1014–1023. (SCI, IF= 2.995)
[23] W Fan, B Xu, H Li, G Lu*, Z Liu*. A novel surrogate model for channel geometry optimization of PEM fuel cell based on Bagging-SVM Ensemble Regression. International Journal of Hydrogen Energy,2023, 47 (33), 14971-14982(SCI, IF= 7.139)
[24] Wenxuan Fan, Taotao Zhao, Ke Jiang, Lei Sun, Saisai Jia, QianqianWu, Guolong Lu*, Zhenning Liu*. Plant vs. Animal Prototype for Designing Bio-inspired PEMFC Flow Fields: Corn Veins or Murray's Law?. Journal of Bionic Engineering. 2022, 19 (3), 761-776. (SCI, IF=2.995)
[25] Zhenning Liu, Taotao Zhao,Wenxuan Fan, Xin Men, Ke Jiang,Guolong Lu*. A Triple Bioinspired Surface Based on Perfluorodecyl Trimethoxysilane-Coated ZnO Nanosheets for Self-Driven Water Transport in a Flow Channel. ACS APPLIED NANO MATERIALS 2022, 5 (2), 2280-2292. (SCI, IF= 6.140)
[26] H.Q. Yang, B.D. Wang, S.Q. Kou, G.L. Lu*, Z.N. Liu*. Mott-Schottky Heterojunction of Co/Co2P with Built-in Electric Fields for Bifunctional Oxygen Electrocatalysis and Zinc-Air Battery. Chemical Engineering Journal, 2021, 425,131589. (SCI, IF= 13.3)
[27] H.Q. Yang, Z.W. Chen, S.Q*. Kou, G.L. Lu*, D.H. Chen, Z.N. Liu*. Carbon-supported catalysts with atomically dispersed metal sites for oxygen electroreduction: present and future perspectives. Journal of Materials Chemistry A, 2021, 9, 15919-15936. (SCI, IF= 14.511)
[28] Hongwei Li*, Boshi Xu, Guolong Lu*, Changhe Du, Na Huang, Multi-objective Optimization of PEM Fuel Cell by Coupled Significant Variables Recognition, Surrogate Models and a Multi-objective Genetic Algorithm, Energy Conversion and Management, 2021, 236, 114063 (SCI, IF= 9.9)
[29] Zhiyuan Li, Haoqi Yang, Hang Sun, Song Liang, Guolong Lu*, Zhenning Liu*, Shuqing Kou, Highly Nitrogen-Doped Carbon Nanotube Nanoarrays as Self-supported Bifunctional Electrocatalysts for Rechargeable and Flexible Zinc-Air Batteries, ACS Sustainable Chemistry & Engineering, 2021, 9(12),4498-4508 (SCI, IF= 8.198)
[30] H.Q. Yang, Z.Y. Li, S.Q. Kou, G.L. Lu*, Z.N. Liu *, A Complex-Sequestered Strategy to Fabricate Fe Single-atom Catalyst for Efficient Oxygen Reduction in a Broad pH-range. Applied Catalysis B: Environmental, 2020, 278, 119270. (SCI, IF=20.2)
[31] Mi Wang, Shiyu Wang, Haoqi Yang, Wen Ku, Shuchen Yang, Zhenning Liu, Guolong Lu#, Carbon-Based Electrocatalysts Derived From Biomass for Oxygen Reduction Reaction: A Minireview, Frontiers in Chemistry, 2020, 8,116 (SCI, IF= 3.693)
[32] Mi Wang, Guolong Lu# Zhongyi Cai, Shuchen Yang, Mingzhe Li, Linear Distribution Principle for Sheet Forming Using Continuous Roll Forming Process, International Journal of Precision Engineering and Manufacturing, 2020, 21(4),557-564 (SCI, IF= 1.378)
授权专利
[1]. 卢国龙;樊文选;王蜜;吴倩倩;赵韬韬;刘镇宁;一种仿生流场的燃料电池双极板及其实现方法;专利号:ZL202210070089.3,授权,2023年11月03日
[2]. 卢国龙;樊文选;刘镇宁;王蜜;吴倩倩;赵韬韬;一种仿生多级分叉流场的燃料电池双极板及其实现方法;专利号:ZL202111602875.5,授权,2023年10月20日
[3]. 卢国龙;崔若禹;戴一娜;姜世深;王蜜;刘镇宁;具有肺进气方式的叶脉流道仿生空冷型燃料电池及其方法;专利号:ZL202210733365.X,授权,2023年08月11日
[4]. LU Guolong, WANG Mi, CUI Ruoyu, DAI Yina, JIANG Shishen, LIU Zhenning. The Blade Vein Channel Bionic Air-Cooled Fuel Cell with Pulmonary Intake and Its Method. 南非专利:33: CN 31: 202210733365.X 32: 2022-06-27. 授权,2023/10/26
[5]. 卢国龙;王艺;马健;袁港;李致远;一种具有自控温功能的仿生燃料电池;专利号:ZL201810212511.8,授权,2023年07月18日
[6]. 卢国龙,孙磊,樊文选,崔浩,王蜜,刘镇宁;一种仿肺多层结构燃料电池双极板及其实现方法;专利号:ZL202010965803.6,授权,2021年07月13日
[7]. 卢国龙,孙友宏,刘嵩,常志勇,谢宗池,崔浩,翁小辉;一种随钻传感器硅橡胶气液分离膜的制备方法;专利号:202010377008.5,授权,2021年04月16日
[8]. 卢国龙,董旭,李致远,库雯,马健,王蜜,刘镇宁;一种仿鱼鳃表面微纳结构的空气阴极;专利号:201710950043.X,授权,2019年04月09日
[9]. 卢国龙,董旭,李致远,库雯,马健,王蜜,刘镇宁;一种仿鱼类鳃丝结构的空气阴极;专利号:201710950057.1,授权,2018年04月09日
[10]. 卢国龙,王蜜,刘镇宁;一种预测软硬相间形貌仿生材料摩擦系数的方法;专利号:201710268729.0,授权,2019年06月07日
四、教改论文
1. 卢国龙,杨微, 王蜜, 刘镇宁.新工科背景下“现代材料测试技术”课程的教学改革与创新.20220720, 当代教育理论与实践
五、著作
1. 《新能源汽车动力电池技术》,副主编,延边大学出版社
六、获奖与荣誉
1. 2023年12月17日,卢国龙;佘萍;孙航;杨皓奇;尹升燕;寇淑清. 多尺度仿生功能材料的科学构筑及能源、环境应用研究. 吉林省自然科学二等奖, 2023ZR20010
