硕士生导师简介
卢国龙,男,1988年生,工学博士,副教授,博士生导师。美国科罗拉多大学波尔德分校留学,入选吉林大学“唐敖庆”学者,吉林大学“励新优秀青年教师培养计划”和“吉林大学优秀青年培育计划”。
近年来,主持国家自然科学青年基金、面上基金共2项,吉林省优秀青年项目、面上项目和重点研发计划项目共3项,教育厅学科重点项目1项,横向课题2项。在Energy、Journal of Power Sources、Energy Conversion and Management、International Journal of Hydrogen Energy、Nanoscale、JMCA、Applied Catalysis B:Environmental等国际学术刊物发表燃料电池材料、部件仿生设计制造相关的SCI检索学术论文50余篇,h-index18,授权国家发明专利10余件。
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、 研究课题方向及能力培养
目前,氢燃料电池被认为是最有可能取代传统发动机的技术,所有方向围绕此大方向展开。
1、氢燃料电池双极板仿生设计及智能优化:针对双极板水、气体分布不均匀问题,受鱼鳃、肺、树叶等传质器官的启发,设计高传质、低压降的双极板流场流道,通过传统CFD计算、拓扑优化及人工智能等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。
学生兴趣及能力要求:熟练使用三维画图软件、流体模拟软件,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、氢燃料电池复合双极板材料设计及模压制造:针对双极板成本高、成型复杂等问题,模仿天然材料铺排方式:如贝壳的泥瓦结构等,研发以石墨基为导电材料、高分子为粘结材料体系下的双极板材料配方,在一定温度下模压制造,一次性成型双极板。
学生兴趣及能力要求:具有一定的材料学知识,以满足对石墨、高分子等材料分析及双极板性能检测。具有简单的机械设计能力,满足模具基本设计。
3、燃料电池界面相关设计及催化材料制备:针对界面可促进集水、水运移等功能,开发合适的表面织构和加工工艺;另外,模仿天然存在的催化中心,合成制备高效催化剂,应用于PEMFC。
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。
4、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] HW 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= 11.533)
[2] 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)
[3] 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)
[4] 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)
[5] 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, 10.1016/j.apsusc.2022.155469(SCI, IF= 7.392)
[6] 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)
[7] 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)
[8] 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)
[9] 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= 16.744)
[10] 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)
[11] 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= 11.533)
[12] 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)
[13] 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=16.683)
[14] 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)
[15] 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)
[16] Mi Wang, Jian Ma, Haoqi Yang, Guolong Lu*, Shuchen Yang*, Zhiyong Chang. nitrogen and cobalt co-coped carbon materials derived from biomass chitin as high-performance electrocatalyst for aluminum-air batteries. Catalysts, 2019,9,954 (SCI, IF=3.444)
[17] Z.N. Liu, Z.Y. Li, S.C. Tian, M. Wang, H. Sun, S. Liang, Z.Y. Chang, G.L. Lu*. Conversion of Peanut Biomass into Electrocatalysts with Vitamin B12 for Oxygen Reduction Reaction in Zn-air Battery. International Journal of Hydrogen Energy, 2019, 44(23), 11788-11796. (SCI, IF= 4.939)
[18] Guolong Lu*, Zhiyuan Li, Wenxuan Fan, Mi Wang, Shuchen Yang, Jiayi Li, Zhiyong Chang, Hang Sun, Song Liang, Zhenning Liu*, Sponge-like N-doped carbon materials with Cobased nanoparticles derived from biomass as highly efficient electrocatalysts for the oxygen reduction reaction in alkaline media. RSC Advances, 2019, 9(9), 4843-4848 (SCI, IF=2.936)
[19] Haoqi Yang, Shuqing Kou, Zhiyuan Li, Zhiyong Chang, Mi Wang, Zhenning Liu#, Guolong Lu#, 3D Interconnected Nitrogen-self-doped Carbon Aerogels as Efficient Oxygen Reduction Electrocatalysts Derived from Biomass Gelatin, RSC Advances, 2019, 9, 40301-40308 (SCI, IF= 3.119)
[20] Zhenning Liu, Zhiyuan Li, Jian Ma, Xu Dong, Wen Ku, Mi Wang, Hang Sun, Song Liang, Guolong Lu#, Nitrogen and cobalt-doped porous biocarbon materials derived from corn stover as efficient electrocatalysts for aluminum-air batteries. Energy, 2018, 162(1), 453-459 (SCI, IF= 4.968)
[21] Mi Wang, GuoLong Lu#, ZhongYi Cai, MingZhe Li, Research on Continuous Roll Rorming for Manufacturing 3D Curved Surface Parts With Variable Transverse Curvatures,Journal of Manufacturing Processes,2018, 36(DEC.),459-464 (SCI, IF= 4.086)
[22] Guolong Lu, Youlong Zhu, Lu Lu, Kongliang Xu, Heming Wang, Yinghua Jin, Zhiyong Jason Ren, Zhenning Liu*, Wei Zhang*, Iron-rich nanoparticle encapsulated, nitrogen doped porous carbon materials as efficient cathode electrocatalyst for microbial fuel cells. Journal of Power Sources, 2016, 315(1), 302-307 (SCI, IF= 6.945)
[23] Guolong Lu, Haishen Yang, Youlong Zhu, Tyler Huggins, Zhiyong Jason Ren, Zhenning Liu*,Wei Zhang*, Synthesis of Conjugated Porous Co (II) Porphyrinylene-Ethynylene Framework Through Alkyne Metathesis and Its Catalytic Activity Study. Journal of Materials Chemistry A, 2015, 3(9), 4954-4959 (SCI, IF= 12.732)
[24] Guolong Lu#, Youlong Zhu#, Kongliang Xu, Yinghua Jin, Zhiyong Jason Ren, Zhenning Liu*,Wei Zhang*, Metallated Porphyrin Based Porous Organic Polymers as Efficient Electrocatalysts,Nanoscale, 2015, 7(43), 18271-18277 (SCI, IF= 7.790)
授权专利
[1] 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
[2] 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
[3] 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:201810212511.8,授权,2018年07月13日
[4] 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
[5] 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
[6] 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
[7] 王蜜,卢国龙,刘镇宁;一种测定材料弹性模量的方法;专利号:201710268975.6,授权,2017年08月25日
[8] 刘镇宁,卢国龙,王蜜;一种基于摩擦性能的软硬相间形貌仿生材料的制备方法;专利号:201710268728.6,授权,2017年08月22日
[9] 刘镇宁,李致远,卢国龙,王蜜,董旭,梁嵩,孙航,李家亿;一种高效低成本氧还原催化剂的制备方法;专利号:201810007108.1,授权,2018年06月22日
[10] 王蜜,李龙海,卢国龙;一种测定材料摩擦系数的方法;专利号:201710268996.8,授权,2019年09月03日
[11] 李东光,刘镇宁,库雯,卢国龙,王蜜,张立佳;一种仿动物体肺结构的车载储氢罐及其储氢方法;专利号:201810136187.6,授权,2018年09月14日