林瑞教师主页

个人简介 Personal Profile 林瑞，女，2002年3月毕业于浙江大学，获工科博士学位。2004年中科院大连化物所催化国家重点实验室博士后出站；2005年西班牙最高科研理事会催化研究所工作；2008-2010年德国航天航空局电化学能源中心(DLR)从事氢燃料电池关键材料及关键技术研究工作。在新能源领域已有二十余年的研究及工作经验。目前主要研究方向为氢燃料电池技术及车用新能源新材料、储能材料开发与应用，以及碳中和开发及应用技术。2004年12月进同济大学汽车学院工作至今，2011年开始任教授，入选同济大学攀登及攀登追踪英才计划及“青年杰出人才培养计划”。曾任国际氢能经济和燃料电池伙伴计划（IPHE）中国联络人、教育部“节能与环保汽车创新引智基地”秘书。现任科技部十四五重点专项会评专家。国家重点研发计划首席科学家。主持科技部国家重点研发计划政府间重点专项、科技部国家重大仪器开发专项（课题）、多项科技部国家重点研发项目课题、多项国家自然科学基金、壳牌氢能国际合作项目及上汽前瞻创新先导等项目负责人。以第一/通讯作者在Advanced Materials等高水平期刊发表SCI论文100余篇，申请专利30余项，其中授权20余项。曾获2022年上海市科技进步一等奖、2017年上海市科技进步一等奖，及2019年中国汽车工业科学技术进步特等奖。出版《车用燃料电池技术》教材（科学出版社）。主讲课程有“燃料电池技术”、“电化学能源基础”等。指导多届学生获得国家大学生创新课题及上海市大学生创新课题。已指导毕业博士研究生9名，硕士研究生60多名，目前在校博士研究生11名，硕士研究生12名。 研究方向Research Directions 燃料电池氧还原催化剂的合成,电解水制氢催化剂的可控制备,二氧化碳定向转化的选择性控制原理,气体扩散层的制备及传输特性研究,燃料电池膜电极的设计与开发,电解槽的设计与搭建,电池在线故障诊断技术研究 2. 机电结构优化与控制 研究内容：在对机电结构进行分析和优化的基础上，运用控制理论进行结构参数的调整，使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容：以仿生结构为研究对象，运用连续体结构拓扑优化设计理论和方法，对多相仿生结构(机构)材料进行2. 机电结构优化与控制 研究内容：在对机电结构进行分析和优化的基础上，运用控制理论进行结构参数的调整，使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容：以仿生结构为研究对象，运用连续体结构拓扑优化设计理论和方法，对多相仿生结构(机构)材料进行整体布局设计。 整体布局设计。 项目情况 2022-2025 科技部国家重点研发计划政府间重点专项，首席科学家2017-2020 科技部国家重点研发计划，课题主持2016-2020 科技部国家重点研发计划，课题主持2012-2021 科技部国家重大科学仪器设备开发专项，课题主持2022-2025 上海市科委国际合作项目，主持2022-2025 国家自然科学基金，主持2020-2023 国家自然科学基金，主持2018-2021 国家自然科学基金，主持2013-2016 国家自然科学基金，主持2013-2013 国家自然科学基金国际合作项目，主持2010-2010 国家自然科学基金国际合作项目，主持2021-2023 上汽科技基金会产学院项目，主持2020-2021 上汽集团合作项目，主持2020-2021 上海光源用户课题项目，主持 科研项目 2022-2025 科技部国家重点研发计划政府间重点专项，首席科学家2017-2020 科技部国家重点研发计划，课题主持2016-2020 科技部国家重点研发计划，课题主持2012-2021 科技部国家重大科学仪器设备开发专项，课题主持 2022-2025 上海市科委国际合作项目，主持2022-2025 国家自然科学基金，主持2020-2023 国家自然科学基金，主持2018-2021 国家自然科学基金，主持2013-2016 国家自然科学基金，主持 2013-2013 国家自然科学基金国际合作项目，主持2010-2010 国家自然科学基金国际合作项目，主持2021-2023 上汽科技基金会产学院项目，主持2020-2021 上汽集团合作项目，主持2020-2021 上海光源用户课题项目，主持 研究成果 以第一/通讯作者在Advanced Materials等高水平期刊发表SCI论文100余篇，近五年代表性论文如下：(1)      Parameteroptimization of PEMFC stack under steady working condition using orthogonalexperimental design. Liu D C, Xia S X, Lin R, et al. International Journal ofEnergy Research , 2018 (5).1-12.(2)      Stabilityof High-Performance Pt-Based Catalysts for Oxygen Reduction Reactions. Lin R,Cai X, Zeng H, et al. Advanced Materials, 2018,30,1705332. (3)      Rapidmicrowave-assisted solvothermal synthesis of shape-controlled Pt-Ni alloynanoparticles for PEMFC. Lin R, Cai X, Zeng H, et al. Electrochimica Acta.2018(283):764-771.(4)      Structureoptimization of anode parallel flow field for local starvation of protonexchange membrane fuel cell. Zhong D, Lin R, Liu D C, et al. Journal of PowerSources. 2018(403):1-10.(5)      EIS andlocal resolved current density distribution analysis on effects of MPL on PEMFCperformance at varied humidification. Shan J, Lin R, Chen X D, et al.International Journal of Heat and Mass Transfer. 2018(127):1076-1083.(6)      ComparisonBetween the Constant Dummy Load and Step Load Shut-Down Strategy for PEMFCs.Xia S X, Lin R, Zhang Q, Dutruel B. Fuel cells. 2018(18):306-314.(7)      Impactof dummy load shut-down strategy on performance and durability of protonexchange membrane fuel cell stack. Yang Y, Li W B, Lin R. Journal of PowerSources. 2018(404):126-134.(8)      Investigationof the effect of cathode stoichiometry of proton exchange membrane fuel cellusing localized electrochemical impedance spectroscopy based on print circuitboard. Dengcheng Liu, Rui Lin , Bowen Feng, Zhen Yang. InternationalJournal of Hydrogen Energy. 2019(44):7564-7573.(9)      Consistencyanalysis of polymer electrolyte membrane fuel cell stack during cold start .Rui Li , Yike Zhua, Meng Ni, Zhenghua Jiang, Diming Lou, Lihang Han, Di Zhong.Applied Energy. 2019(241):420-432.(10)   Investigationon cold start of polymer electrolyte membrane fuel cells with different cathodeserpentine flow fields. Yike Zhu, Rui Lin, Zhenghua Jiang, Di Zhong, BohanWang, Wangyi Shangguan, Lihang Han. International Journal of Hydrogen Energy. 2019(44):7505-7517.(11)   Onesimple method to mitigate the structure degradation of alloy catalyst layer inPEMFC. Wenbin Li, Rui Lin*, Yue Yang. ElectrochimicaActa. 2019. 323：134823(12)   Gram-ScaleSynthesis of Well-Dispersed Shape-Controlled Pt-Ni/C as High-PerformanceCatalysts for the Oxygen Reduction Reaction. Xin Cai,Rui Lin* ,Dandan Shen, and Yu Zhu. ACSAppl. Mater. Interfaces. 2019.11: 29689−29697.(13)   Investigationof the effect of humidity at both electrode on the performance of PEMFC usingorthogonal test method. Bohan Wang, Rui Lin*, Dengcheng Liu, Ji Xu, Bowen Feng.International journal of hydrogen energy. 2019. 44：13737-13743.(14)   Study onthe Uncoupling Characteristics of PEM Fuel Cell by Segmented Cell Technology. BowenFeng, Rui Lin* , Dengcheng Liu, Di Zhong. International Journal ofELECTROCHEMICAL SCIENCE. 2019. 14：2175-2186.(15)   Investigationon the reaction area of PEMFC at different position in multiple catalyst layer. WenbinLi, Rui Lin*, Yue Yang. Electrochimica Acta.2019. 302：241-248.(16)   Localisedelectrochemical impedance spectroscopy investigation of polymer electrolytemembrane fuel cells using Print circuit board-based interference free system. DengchengLiu, Rui Lin⁎, Bowen Feng, Lihang Han, Yu Zhang, Meng Ni, Sai Wu, AppliedEnergy. 2019. 254: 113712(17)   Optimizedmicroporous layer for improving polymer exchange membrane fuel cell performanceusing orthogonal test design. Rui Lin⁎, Xiaoyu Diao, Tiancai Ma⁎, ShenghaoTang, Liang Chen, Dengcheng Liu. Applied Energy. 2019. 254：113714(18)   Stackshut-down strategy optimisation of proton exchange membrane fuel cell with thesegment stack technology. Rui Lin*, Dengcheng Liu, Shixiang Xia, Tiancai Ma**,Benjamin Dutruel. Internationaljournal of hydrogen energy. 2020.(19)   Highdurability of Pt-Ni-Ir/C ternary catalyst of PEMFC by stepwise reductionsynthesis. Rui Lin*, Lu Che, Dandan Shen, Xin Cai. Electrochimica Acta.2020.330: 135251.(20)   Lowtemperature durability and consistency analysis of proton exchange membranefuel cell stack based on comprehensive characterizations. DiZhong, Rui Lin*; Zhenghua Jiang, Yike Zhu, Dengchen Liu, Xin Cai, Liang Chen.Applied Energy        2020. 264:114626.(21)   Structuraldesign of gas diffusion layer for proton exchange membrane fuel cell at varyinghumidification. Liang Chen, Rui Lin, Shenghao Tang, Di Zhong, Zhixian Hao.Journal of Power Sources. 2020, 467: 228355.(22)   MicroporousLayers with Different Decorative Patterns for Polymer Electrolyte Membrane FuelCells. Liang Chen, Rui Lin,* Xiadong Chen, Zhixian Hao, Xiaoyu Diao, DieterFroning, and Shenghao Tang. ACS Appl. Mater. Interfaces. 2020, 12: 24048-24058.(23)   Detailedoptimization of multiwall carbon nanotubes doped microporous layer in polymerelectrolyte membrane fuel cells for enhanced performance. Rui Lin, ShenghaoTang, Xiaoyu Diao, Di Zhong, Liang Chen, Dieter Froning, Zhixian Hao. AppliedEnergy. 2020, 274: 115214.(24)   DegradationDifferences of a Single Proton Exchange Membrane Fuel Cell: Energy ManagementStrategy and Dynamic Programming. Lihang Han, Rui Lin*, Di Zhong, Hang Yu,Shenghao Tang. International Journal of ELECTROCHEMICAL SCIENCE. 2021,16.(25)   Optimizingthe structural design of cathode catalyst layer for PEM fuel cells forimproving mass-specific power density. Energy. Rui Lin*, Hong Wang, Yu Zhu.2021,221:119909.(26)   Investigationon cold start of polymer electrolyte membrane fuel cells stacks with diversecathode flow fields. Zhu Yike, Lin Rui, Han Lihang, Jiang Zhenghua, Zhong Di.International journal of hydrogen energy. 2021,46:5580-5592.(27)   Interfacialwater management of gradient microporous layer for self-humidifying protonexchange membrane fuel cells. International Journal of Heat and Mass Transfer.Lin, Rui; Chen, Liang; Zheng, Tong, 2021,175:121340.(28)   Investigationof real-time changes and recovery of proton exchange membrane fuel cell involtage reversal.  Lin, Rui; Yu, Hang;Zhong, Di; Energy conversion and management. 2021, 236: 114037(29)   MicroporousLayer Containing CeO2-Doped 3D Graphene Foam for Proton Exchange Membrane FuelCells at Varying Operating Conditions. Chen, Liang; Lin, Rui; Yu, Xiaoting; ACSApplied materials & interfaces. 2021, 17: 20201-20212.(30)   Mechanismanalysis of the effect of different gas manifold positions on proton exchangemembrane fuel cell cold start performance. Zhong, Di; Lin, Rui; Han, Lihang.International journal of energy research. 2021, 1-13.(31)   Onesimple method to improve the mass transfer of membrane electrode assembly torealize operation under wide humidity. Cai X, Lin R, Wang H, Liu S C, Zhong D.Journal of Power Sources. 2021, 506: 230185.(32)   Structuremajorization on the surface of microporous layer in polymer electrolytemembrane fuel cells to optimize performance and durability. Lin R, Yu X Y, ChenL, Tang S H, Yin X L, Hao Z X. Energy conversion and management. 2021,243:114319.(33)   AnchoredPt-Co Nanoparticles on Honeycombed Graphene as Highly Durable Catalysts for theOxygen Reduction Reaction. Lin R, Zheng T, Chen L, Wang H, Cai X, Sun Y, Hao ZX. ACS Applied materials & interfaces.2021,13:34397-34409.(34)   Optimizingthe Mass-Transfer Efficiency of a Microporous Layer for High-Performance ProtonExchange Membrane Fuel Cells. Chen L, Lin R, Dong M C, Yu X T, Lou M Y, Hao ZX. Journal of physical chemistry C. 2021, 125:14122-14133. (35)   EmbeddingPt-Ni octahedral nanoparticles in the 3D nitrogen-doped porous graphene forenhanced oxygen reduction activity. Lin R, Sun Y, Cai X, Zheng T, Liu X, WangH, Liu S C, Hao Z X. Electrochimica Acta. 2021, 391:138956.(36)   Effectof heat treatment on the surface structure of Pd@Pt–Ni core-shell catalysts forthe oxygen reduction reaction. Cai X, Lin R, Liu X, Zhao Y C. Journal of Alloysand Compounds. 2021, 884: 161059.(37)   ExperimentalValidation for Enhancement of PEMFC Cold Start Performance: Based on theOptimization of Micro Porous Layer. Lin R, Zhong D, Lan S B, Guo R, Cai X. AppliedEnergy. 2021, 300:117306.(38)   Xin Cai,Rui Lin, Ji Xu, et.al. Construction and analysis of photovoltaic directlycoupled conditions in PEM electrolyzer. International Journal of HydrogenEnergy. 2022.47: 6494-6507.(39)   Aneffective method of applying Octahedral Pt-Ni/C to Membrane Electrode Assemblyand Related In-Situ X‑ray Absorption Fine Structures Study. Xin Cai, ShiyangHua, Rui Lin, et. al. Applied Surface Science. 2022, 598: 153789.(40)   Improvingthe performance and durability of low Pt-loaded MEAs by adjusting thedistribution positions of Pt particles in cathode catalyst layer. Shengchu Liu,Shihua Yang, Rui Lin, et. al. Energy. 2022, 253: 124201.(41)   Ionomerdistribution control by self-assembled monolayers for high-power and lowPt-loaded proton exchange membrane fuel cells. Hong Wang a, Shiyang Hua b, RuiLin a,*et.al. Journal of Power Sources. 542, 2022: 231793.(42)   Onesimple design to improve the mass transfer of low Pt-loaded membrane electrodeassembly to realize operation under low humidity. Shengchu Liu , Rui Lin *,Hong Wang ,et. al. Journal of Power Sources. 2022, 541: 231695.(43)   Structuraldesign of microporous layer to mitigate carbon corrosion in proton exchangemembrane fuel cells. Liang Chen , Rui Lin *, Mingyu Lou , Kai Lu. Carbon. 2022,199: 189-199.(44)   ReducingIrreversible Performance Losses via a Graphene Oxide Buffer Layer forProton-Exchange Membrane Fuel Cells. Hong Wang, Rui Lin,* Xin Liu, et.al. ACSAppl. Mater. Interfaces 2022, 14, 27891-27901.(45)   Investigationon performance of proton exchange membrane electrolyzer with different flowfield structures. Rui Lin *, Ying Lu , Ji Xu ,et.al. Applied Energy. 2022, 326:120011.(46)   Researchon the variation of current density distribution in a commercial-size protonexchange membrane fuel cell under dynamic gas operation parameters. Yunyang Ma,Rui Lin∗, Zhongjun Hou, et.al. InternationalJournal of Heat and Mass Transfer. 2022, 196: 123287.(47)   Imagerecognition of cracks and the effect in the microporous layer of protonexchange membrane fuel cells on performance. Shunbo Lan, Rui Lin *, MengchengDong, et .al. Energy. 2023, 266: 126340.  学生信息 当前位置：教师主页 > 学生信息 入学日期 所学专业 学号 学位 招生信息 当前位置：教师主页 > 招生信息 招生学院 招生专业 研究方向 招生人数 推免人数 考试方式 招生类别 招生年份