

电话:010-62796167
传真:010-62784655
E-mail:qcxbgs@tsinghua.edu.cn
长聘教授,博士生导师,学术委员会副主任,清华大学动力工程及工程热物理学位评定分委员会委员
通讯地址:北京清华大学车辆与运载学院李兆基科技大楼A435,100084
Email: jbzhang@tsinghua.edu.cn
Tel: 010-62786918
电化学动力源课题组网站:http://thueps.org/
张剑波,清华大学车辆与运载学院长聘教授,学术委员会副主任,清华大学动力工程及工程热物理学位评定分委员会委员。担任国际电化学阻抗谱委员会(ISEIS)主席,世界燃料电池与氢能会议(WFCC)组委,欧洲燃料电池论坛(EFCF)科学委员会委员。
研究领域包括燃料电池、水电解等电化学能量装置,多孔电极制备、表征、建模、优化,电化学阻抗谱的理论与应用。研究内容包括电极浆料干燥过程中组分变化与结构形成机理,静电纺丝与有序化催化层构筑、建模,低铂族金属载量、高功率密度、高耐久膜电极设计,燃料电池零下启动,碱性水电解与质子交换膜水电解性能优化、状态监测及故障诊断技术,基于阴阳极双电层交叠效应的无膜、无铱、无添加电解质新型纯水电解,二氧化碳电还原,电化学阻抗谱理论模型建立,应用AI赋能的阻抗谱-介电谱联用方法开发等。
2000年获日本东京大学航空宇宙专业博士学位。 2000年至2011年,在日本日产汽车公司综合研究所从事燃料电池和锂离子电池的研发。2011年初,由清华大学“百人计划”引进,任汽车工程系教授,并创立电化学动力源研究室。
https://www.researchgate.net/profile/Jianbo-Zhang-4
1990年,于清华大学工程力学系获学士学位;
1993年,于北京空气动力研究所获硕士学位;
2000年,于日本东京大学航空宇宙系获博士学位。
1993~1997年,北京空气动力研究所,从事空气动力学研究;
2000~2011年,日本日产汽车公司,从事燃料电池、锂离子电池研究;
2011~现在,清华大学车辆与运载学院,从事燃料电池、电解水、锂离子电池、电化学阻抗谱研究。
电化学阻抗谱理论与应用:基于物理过程的阻抗谱理论模型建立,基于阻抗谱的电化学能量装置性能优化、状态监测、故障诊断,应用AI赋能的阻抗谱-介电谱联用方法开发;
燃料电池:低铂族金属载量、高功率密度、高耐久膜电极设计,快速、低能耗、无损零下启动;
水电解:碱性水电解与质子交换膜水电解性能优化及故障诊断技术,基于阴阳极双电层交叠效应的无膜、无铱、无添加电解质新型纯水电解;
二氧化碳还原:二氧化碳电化学还原中化学子反应协同效应研究。
国内项目:
1. 横向,北京低碳清洁能源研究院,电解水制氢阻抗谱解析及电极测试技术开发,2025/03-2026/03
2. 国家自然科学基金面上项目,阴阳极双电层交叠纯水电解基础研究,2022/01-2025/12
3. 国家重点研发计划,阴阳极双电层交叠纯水电解基础研究,2021/12-2025/11
4. 横向,华为技术有限公司,质子交换膜电解水阳极电极结构技术合作项目,2022/09-2024/08
5. 汽车安全与节能国家重点实验室开放基金,超大面积金属双极板强化传质结构设计制造及性能研究,2022/03-2023/12
6. 汽车安全与节能国家重点实验室开放基金,质子交换膜垂直膜面质子传输通道的构建及性能研究,2022/03-2023/12
7. 北京市自然科学基金,多相多组分浆料静电纺丝可控制备研究及纳米纤维性能优化,2022/01-2023/12
8. 汽车安全与节能国家重点实验室自主课题,高效、无膜纯水电解——阴阳极双电层交叠主效应研究,2021/06-2022/12
9. 汽车安全与节能国家重点实验室自主课题,燃料电池静电纺纳米纤维催化剂层研究,2019/01-2020/12,
10. 国家重点研发计划,燃料电池发动机设计与控制关键技术开发,2018/07-2021/03
11. 国家重点研发计划,单体电池热电耦合模型研究,2018/05-2020/12
12. 北京市科委,高压高功率密度燃料电池系统,2018/01-2020/04
13. 国家重点研发计划,高功率电池、新型超级电容模型化开发共性技术研究,2017/07-2020/12
14. 汽车安全与节能国家重点实验室开放基金,流场对车用燃料电池水、热、电化学耦合的调控机制,2016/02-2017/12
15. 汽车安全与节能国家重点实验室开放基金,锂离子电池热滥用工况下的产热研究,2016/02-2017/12
16. 横向,上汽集团股份有限公司,燃料电池有序化膜电极研究,2015/12-2016/12
17. 汽车安全与节能国家重点实验室重点项目,有序Nafion纳米线阵车用燃料电池催化剂层研究,2014/07-2016/12
18. 横向,苏州质量检测局,车用动力锂电池的性能评估与检测技术研究,2014/01-2015/12
19. 横向,华为技术有限公司,锂离子电池SOC、SOH建模与算法研究,2014/01-2015/10
20. 国家自然科学基金面上项目,基于频域热电模型的锂离子电池低温快速充电理论与方法研究,2014/01~-2017/12
21. 横向, 北京飞行博达电子有限公司,SOC估计,2014/04-2015/03
22. 横向,北京波士顿动力电池有限公司,锂离子电池一致性评价方法开发,2014/04 -2015/03
23. 横向,上汽集团股份有限公司,燃料电池老化问题调研,2014/03-2015/03
24. 汽车安全与节能国家重点实验室开放基金,基于阻抗信息的复合正极老化解析方法研究,2014/01-2015/12
25. 横向,中国电子科技集团公司第十五研究性能测试、改进、优化、老化,2013/10-2015/10
26. 横向,苏州研究院,动力电池老化解析技术开发,2013/05-2014/12
27. 清华大学校自主课题,基于内部产热/传热机理的大型动力电池热特性及电池组热管理技术基础研究,2011/11- 2014/12
28. 863子课题,中信国安盟固利电源技术有限公司,锰酸锂体系动力电池规模产业化技术攻关,2011/01-2013/12
国际合作项目:
1. 丰田汽车公司,阴阳极双电层交叠纯水电解开放式反应器设计研究,2023/07-2024/03
2. 丰田汽车公司,阴阳极双电层交叠纯水电解电流效率研究,2022/07-2023/03
3. 丰田汽车公司,高性能高耐久商用车燃料电池催化层设计,2022/07-2022/10
4. 丰田汽车公司,无膜、无添加电解质、无铱、阴阳机双电层纯水电解研究,2021/11-2022/05
5. 丰田汽车公司,燃料电池静电纺丝催化剂层:制备、表征与优化,2021/10-2022/04
6. 本东京燃气公司,多空传输层对质子交换膜水电解性能的影响,2021/02-2021/03
7. 丰田汽车公司,燃料电池静电纺丝催化剂层:制备、表征与优化,2020/09-2021/03
8. 科技部,中日氢能系统共性问题合作研究,2019/07-2022/06
9. 丰田汽车公司,燃料电池静电纺丝催化剂层:制备,表征与优化,2019/04-2024/04
10. 宝马(中国)服务有限公司,石墨负极锂离子电池可控析锂及其对安全特性,2018/12- 2020/12
11. 科技部,中日客车燃料电池水管理与低温启动研究,2016/12-2019/09
12. 日本东芝公司,20153000019,低铂金担载量PEFC单电池开发,2015/01-2016/03
13. 宝马(中国)服务有限公司,低温充电方,2014/11-2016/12
14. 科技部,中日新能源汽车用动力电池高性能化的研究,2013/04-2016/03
主讲三门课程:电化学原理(本科生双语课),电化学方法:测量与模拟(研究生全英文课程),电化学能量转换与存储:原理与应用(研究生课程)。
电化学动力源课题组从2011年成立以来,出站博士后 4人,毕业博士生9人,毕业硕士生27人;(其中联合培养博士生2名,联合培养硕士生16名),现在站博士后2名,在读博士研究生12人,在读硕士研究生4人(联合培养硕士生1名)。其中,黄俊博士于2017年获得清华大学学术新秀、启航奖金奖等荣誉,博士论文评为校级优秀论文,现在德国于利希研究所工作。
国际电化学阻抗谱委员会(ISEIS)主席,
世界燃料电池与氢能会议(WFCC)组委,
欧洲燃料电池论坛(EFCF)科学委员会委员。
2017年获清华大学优秀博士学位论文指导教师。
1.电化学阻抗谱研究:在理论上方面,求解出考虑浓溶液下离子传输过程的传输线理论的阻抗谱解析表达式,用于揭示多孔电极内部反应及物质传输的耦合机理;在实用方面,使用电化学阻抗谱对燃料电池、锂离子电池的性能、安全、耐久性等特性进行表征。
2. 燃料电池膜电极研究:在制备方面,采用刮涂及静电纺丝方式制备催化剂层,通过催化剂层的工艺与结构优化来增加活性面积、改善物质传输,以获得具有低铂载量、高性能、高耐久性的催化剂层,开发面向大电流密度的燃料电池催化层;在表征方面,对材料-工艺-结构-功能-性能等多阶段进行多尺度、多相、多物理表征,揭示浆料及膜电极结构形成机制,研究膜电极内电化学、水热耦合机制,探究低铂载量下铂金表面局域传质阻力的形成机理与缓解措施,为优化燃料电池性能提供理论基础和技术方案;在基础理论方面,针对金属溶液界面,建立一套能够自洽描述表面氧化物形成、表面荷电行为、表面水分子行为、溶液中离子浓度和电位分布及电荷转移反应等复杂现象的理论模型,为理解燃料电池电催化剂和电极中的静电作用奠定基础。在计算模拟方面,建立阴极介孔碳载铂结构的分子动力学模型,考虑官能团、水含量和铂颗粒表面性质等因素的影响,研究各亲水/疏水物质间相互作用,明晰孔内外水分布和质子传导的特点,为后续物理模型的建立和载体材料的开发、设计提供支持和指导。
3. 燃料电池零下启动研究:在机理方面,利用中子成像技术观测了过冷水分布特征及结冰过程,根据电化学表征的结果确定了零下启动过程的失效机理,开发气固液三相热电耦合模型划分了零下启动过程的三种失效模态与边界;在启动策略方面,设计了绝热单池装置来模拟电堆中心单池以提高实验效率,并开发出交互式氢泵启动方法,成功实现了石墨基燃料电池零下30℃的无损快速高效启动。
4. 质子交换膜水电解研究:在制备方面,采用水热合成技术和静电喷涂技术制备质子交换膜水电解微孔传输层,降低了欧姆阻抗,优化了物质传输;在表征方面,对质子交换膜水电解催化层的材料、结构、性能进行了多尺度、多相、多物理表征,揭示了催化层中电子电导率与性能之间的关系,为低载量高性能催化层设计提供了设计支撑。
5. 无膜、无铱、无添加电解质新型纯水电解研究:在机理方面,提出了阴阳极双电层交叠下无膜纯水电解原理,验证并解析了阴阳极交叠双电层中的原位离子生成与双性反应环境。在应用方面,设计并制备了对峙型电极构型的纳流控反应器,实现了极低材料成本下,1.7 V电压下2.8 A/cm2的电流密度的超高性能表现。
出版专著《锂离子电池结构设计理论与应用》一部,两部英文专著(Fuel Cells for Transportation, Microscopy and Microanalysis for Lithium-Ion Batteries)中章节撰稿人(Chap 16 Subzero startup of polymer electrolyte fuel cell,Chap 11 Electrochemical Impedance Spectroscopy)。
在日本申请专利22项,获权4项,在中国申请专利31项,获权19项。
发表论文158篇,其中期刊论文113篇(SCI收录75篇,EI收录9篇),会议论文45篇。
到清华后发表论文列表:
1. Wenbo Shi#, Dewei Li, Kai Niu, Ruoxi Yang, Haosen Xu, Jianbo Zhang*, Ultralow degradation cold start of proton exchange membrane fuel cell with alternating hydrogen pump method, International Journal of Hydrogen Energy, 2024.8.30, 86:404-413
2. Haosen Xu#, Jianbo Zhang,* Michael Eikerling, and Jun Huang*,Pure Water Splitting Driven by Overlapping Electric Double Layers,Journal of the American Chemical Society(JACS), 2024.7.10, 146(29):19720−19727
3. Yiming Zhang#, Caihan Zhu, Jianbo Zhang*, Yong Liu, Negative Impact of Poly(acrylic acid) on Proton Conductivity of Electrospun Catalyst Layers, Applied Energy, 2023-12-14, 0306-2619
4. Zengming Zhang; Chenkun Li; Jianbo Zhang; Michael Eikerling; Jun Huang,Dynamic Response of Ion Transport in Nanoconfined Electrolytes,Nano Letters,2023-12-13
5. Xinning Zhu#, Liang Su, Xi Wang, Rui Chen, Dongsheng Ji, Yao Ma, Linjing Wu, Jianbo Zhang, Wei Zhou*, Effects of operating conditions on the performance uniformity of the proton-exchange membrane fuel cell stack,ENERGY CONVERSION AND MANAGEMENT,2023.4.1,281
6. Xu, Haosen#, Shangshang Wang, and Jianbo Zhang*. Cold Start of a PEMFC using Alternating Hydrogen Pump: Part II. Optimization and Comparison with Rapid Self-Heating.Journal of The Electrochemical Society,2023.2.1,170(2),文献号:024511
7. Zhe Li, #* Anhao Zuo, Zhaobin Mo, Mu Lin,2Chengyu Wang, Jianbo Zhang, Markus H. Hofmann,and Andreas Jossen, Demonstrating stability within parallel connection as a basis for building large-scale battery systems , Cell Reports Physical Science, 2022.12.21,3(12), 文献号:101154
8. Shangshang Wang#, Jun Huang, Xing Zhang, Jianbo Zhang*,Direct measurement of proton conductivity of a single ionomer nanofiber, Nano Engery, 102:107738
9. Shixue Wang#, Ya'nan Liang, Dewei Li , Zengming Zhang ,Jianbo Zhang*,Analysis and proposition of limiting current density measurement protocol,International Journal of Hydrogen Energy,2022.8.12,47(56):23762-23771
10. Xin Li#, Ruiliang Liu, Ming Yao, Jianbo Zhang*, Yong Liu*, Performance of polymer electrolyte fuel cell under wetdry conditions with hydrophilic and hydrophobic electrospun microporous layers, Journal of Power Sources, 2022.8.9,545:231896
11. 施文博#、蔡淳名、李德威、小野圭、张剑波*,ISO/IEC、美日中氢能技术标准化体系比较与建议(Japanese and Chinese hydrogen technical standardization system: comparison and suggestions),化学进展(Chemical Industry and Engineering Progress) 2022.8, 41(12): 6275-6284.
12. Zhang Zeping#, Jian Jiting, Wang Shixue, Wang Cheng, Gong Jinke, Zhang Jianbo*, Subzero startup of electrochemical power sources using alternating current, International Journal of Green Energy, 2022.8
13. Li Zhe, Fang Ruqing, Ge Hao, Liu Zhongxiao, Spingler, Franz B, Jossen, Andreas, Zhang Jianbo*, Liaw, Boryann*, Multiphysics Footprint of Li Plating for Li-Ion Battery and Challenges for High-Accuracy Detection, JOURNAL OF THE ELECTROCHEMICAL
14. SOCIETY , 2022.8.1, 169(8), 文献号: 080530
15. Xu Haosen, Wang Shangshang, Si Dechun, Zhang Jianbo, Cold Start of PEMFC using Alternating Hydrogen Pump: Part I. Mechanistic Modeling, Journal of The Electrochemical Society,2022.5.1,169(5), 文献号: 054527
16. Ruqing Fang#, Peng Dong, Hao Ge, Jiangtao Fu, Zhe Li, Jianbo Zhang*. Capacity plunge of lithium-ion batteries induced by electrolyte drying-out: Experimental and Modeling Study. Journal of Energy Storage, 2021.10,42,文献号:103013
17. Laisuo Su#*, Mengchen Wu, Zhe Li, Jianbo Zhang*, Cycle life prediction of lithium-ion batteries based on data-driven methods, ETransportaion, 2021.9, 10,文章号:100137
18. Shangshang Wang#, Yiming Zhang, Haosen Xu, Jianbo Zhang*, A adiabatic cell as a model for stack in PEFC cold start study, International Journal of Hydrogen Energy, 2021.9.3, 46(61):31391-31399
19. Wang Shangshang#, Zhang Jianbo, Gharbi Oumaima, Vivier Vincent, Gao Ming, Orazem Mark E. *, Electrochemical impedance spectroscopy, NATURE REVIEWS METHODS PRIMERS, 2021.6.10, 1(1), 文献号: 41,
20. 司德春#,蹇季廷,徐浩森,汪尚尚,王诚,张剑波*,用交互氢泵法的聚合物电解质燃料电池堆-30 ℃启动(-30 °C start-up of a PEFC stack based on alternate hydrogen pump method),汽车安全与节能学报(JAES), 2021.5.27,12(4):604-612
21. Liu, H. #, Si, D., Ding, H., Wang, S., Zhang, J. *, & Liu, Y. Cold start capability and durability of electrospun catalyst layer for proton exchange membrane fuel cell. International Journal of Hydrogen Energy,2021.3.16,46(19):11140-11149
22. 滕冠兴#、戚俊毅、葛昊、李哲*、张剑波,通过无量纲化方法分析实验条件对锂离子电池热参数辨识精度的影响(Effect of experimental conditions on the precision of estimated LIB thermal parameters via non-dimensional analysis),储能科学与技术,2021.1,10(1)
23. 董鹏; 张剑波; 王震坡,基于电化学阻抗谱的锂离子电池析锂检测方法,汽车安全与节能学报,2021-01-01,12(4):570-579
24. Lei Yao #, Fangfang Ma, Jie Peng *, Jianbo Zhang, Yangjun Zhang and Jianpeng Shi,Analysis of the Failure Modes in the Polymer Electrolyte Fuel Cell Cold-Start Process—Anode Dehydration or Cathode Pore Blockage, energies, 2020.1.20, 13(1), 文献号:256
25. Hu, X. #, Song, P., Yang, X., Wang, C. *, Wang, J., Tang, Y., Jianbo Zhang ... & Mao, Z. One-step microwave-assisted synthesis of carbon-supported ternary Pt-Sn-Rh alloy nanoparticles for fuel cells, Journal of the Taiwan Institute of Chemical Engineers, 2020.11.2, 115:272-278
26. Jun Huang#*; Yu Gao; Jin Luo; Shangshang Wang; Chenkun Li; Shengli Chen; Jianbo Zhang*,Editors' Choice—Review—Impedance Response of Porous Electrodes: Theoretical Framework, Physical Models and Applications, JOURNAL OF THE ELECTROCHEMICAL SOCIETY,2020.12.1,167(16),文献号:166503
27. Sun, Ying#, Eikerling, Michael, Zhang, Jianbo*, and Huang, Jun*. Impedance Model of a Water-Filled Pt Nanopore: Interfacial Charging and Chemisorption Effects. Journal of the Electrochemical Society, (影响因子3.721),2020.4.14,167(6),文献号: 066519
28. Fang, Ruqing#,Ge, Hao,Wang, Ziheng, Li Zhe*, Zhang Jianbo, A Two-Dimensional Heterogeneous Model of Lithium-Ion Battery and Application on Designing Electrode with Non-Uniform Porosity, JOURNAL OF THE ELECTROCHEMICAL SOCIETY (影响因子3.721),2020.1.10,167(13),文献号: 130513
29. 刘中孝;葛昊;李哲;张雅琨;张剑波,锂离子电池低温循环老化的空间分布与特征(Distribution and characteristics of degradation of lithium ion batteries cycled at low temperature),汽车安全与节能学报, 2019,10(4):502-510
30. 黄福森;汪尚尚;李哲;彭杰;张剑波,过冷水对质子交换膜燃料电池零下启动能力与特性的影响(Influences of super-cooled water on PEMFC sub-freezing startup capability and characteristics),汽车安全与节能学报,2019, 10(1):82-87
31. Zhang, Yufan# , J. Zhang , and J. Huang* , Potential-Dependent Volcano Plot for Oxygen Reduction: Mathematical Origin and Implications for Catalyst Design. Journal of Physical Chemistry Letters, 2019.11.21,10(22):7037-7043.
32. Liu, Zhongxiao#; Li, Zhe; Zhang, Jianbo; Su, Laisuo; Ge, Hao*,Accurate and Efficient Estimation of Lithium-Ion Battery State of Charge with Alternate Adaptive Extended Kalman Filter and Ampere-Hour Counting Methods, ENERGIES(影响因子2.707),2019,12(4),( WOS:000460667700183)
33. 尧磊#,彭杰*,张剑波,张扬军,质子交换膜燃料电池冷启动的数值模拟,化工进展,2019,38(9):4030-4035
34. Ge Hao#, Li Zhe, Zhang Jianbo, Multi-stage capacity loss of lithium-ion batteries originating from the multi-slope nature of open circuit voltage curves(锂离子电池开路电压曲线形状与多阶段容量损失), Energy Storage Science and Technology(储能科学与技术),2019,8(6):1089-1095
35. Junning Wen#, Dechun Si, Shangshang Wang, Han Ding, Chaoming Li, Ono Kei, Zhili Chen, Jianbo Zhang*, Alternate Hydrogen Pump Method Enables Start-Up from −30°C for Graphite-Bipolar-Plate Proton Exchange Membrane Fuel Cells, Journal of The Electrochemical Society, 2019, 166 (14) :F1-F5
36. Shangshang Wang#, Ying Sun, Fusen Huang, Jianbo Zhang*, Freezing Site of Super-CooledWater and Failure Mechanism of Cold Start of PEFC, Journal of The Electrochemical Society, 2019, 166 (13): F860-F864
37. J Huang*, T Zhou, J Zhang, MH Eikerling*, Double layer of platinum electrodes: Non-monotonic surface charging phenomena and negative double layer capacitance, The Journal of Chemical Physics,2018.1.28, 148(4), 文献号:044704;
38. J Huang, B Tong, Z Li, T Zhou*, J Zhang*, Z. Peng*, Probing the Reaction Interface in Li–Oxygen Batteries Using Dynamic Electrochemical Impedance Spectroscopy: Discharge–Charge Asymmetry in Reaction Sites and Electronic Conductivity, J. Phys. Chem. Lett., 2018, 9 (12):3403–3408
39. J Huang*, J Zhang, M Eikerling. Unifying theoretical framework for deciphering the oxygen reduction reaction on platinum. Phys. Chem. Chem. Phys. (影响因子3.430),2018.5.7, 20(17):11776-11786.
40. 宋杨;苏来锁;王彩娟;张雅琨;张剑波,锂离子电池老化研究进展(Research progress of aging for lithium ion batteries),电源技术,2018,42(10):1578-1581
41. 张雅琨#,苏来锁,王彩娟,宋杨,李哲*,多应力作用下锂离子电池老化模型(Aging models of lithium-ion batteries under multiple factors),电源技术(Chinese Journal of Power Sources),2018,42(1):32-36
42. 吴正国#,张剑波,李哲*,Boryann Liaw,锂离子电池加速老化温度应力的滥用边界(Aging abuse boundary of lithium-ion cell above room temperature), 汽车安全与节能学报J Automotive Safety and Energy,2018,9(1)
43. 刘勇#,丁涵,司德春,彭杰,张剑波*,静电纺丝制备质子交换膜燃料电池催化剂层综述,电化学(Journal of Electrochemistry), 2018, 24(6):639-654
44. Lei Yao#, Jie Peng*, Jianbo Zhang, Yangjun-Zhang, Numerical investigation of cold-start behavior of polymer electrolyte fuel cells in the presence of super-cooled water, International Journal of Hydrogen Energy, 2018, 43: 15505-15520
45. D. Si#, S. Zhang, J. Huang, C.Wang, Y. Liu*, J. Zhang,* Electrochemical Characterization of Pre-conditioning Process of Electrospun Nanofiber Electrodes in Polymer Electrolyte Fuel Cells,Fuel Cells,2018, 18(5): 576-585
46. Huang Jun#, Li Zhe, Zhang Jianbo*, Review of characterization and modeling of polymer electrolyte fuel cell catalyst layer: The blessing and curse of ionomer,FRONTIERS IN ENERGY,2017,11(3):344-346
47. 张剑波#,黄福森,黄俊,赵波,王诚*,毛宗强,质子交换膜燃料电池零下冷启动研究进展(A Review on Subzero Startup of Proton Exchange Membrane Fuel Cell),化学通报,2017,80(6):507-516
48. Yakun Zhang#, Xinyu Li, Laisuo Su, Zhe Li, Bor Yann Liaw, Jianbo Zhang*. Lithium Plating Detection and Quantification in Li-Ion Cells from Degradation Behaviors. ECS Transactions, 2017,75(23):37-50.
49. Yakun Zhang#, Hao Ge, Jun Huang, Zhe Li*, Jianbo Zhang*. A comparative degradation study of commercial lithium-ion cells under low-temperature cycling, RSC Advances, 2017,7(37):23157-23163.
50. Zhe Li#, Jun Huang, Bor Yann Liaw*, Jianbo Zhang*, On state-of-charge determination for lithium-ion batteries, Journal of Power Sources, 2017, 348:281-301
51. Jun Huang#, Jianbo Zhang*, Michael H. Elerling, Particle Proximity Effect in Nanoparticle Electrocatalysis: Surface Charging and Electrostatic Interactions, Jounral of Physical Chemistry C, 2017, 121(9):4806-4815
52. Hao Ge#, Tetsuya Aoki, Nobuhisa Ikeda, Sohei Suga, Takuma Isobe, Zhe Li, Yuichiro Tabuchi*,and Jianbo Zhang*, Investigating Lithium Plating in Lithium-Ion Batteries at Low Temperatures Using Electrochemical Model with NMR Assisted Parameterization, Journal of The Electrochemical Society, 2017, 164(6):A1050-A1060
53. 张剑波#,苏来锁,李新宇,葛昊,张雅琨,李哲*.基于锂离子电池老化行为的析锂检测(Lithium Plating Identification from Degradation Behaviors of Lithium-Ion Cells),电化学,2016,22(6):607-616.
54. Jianbo Zhang# , Laisuo Su, Zhe Li, Ying Sun and Ningning Wu, The Evolution of Lithium-Ion Cell Thermal Safety with Aging Examined in a Battery Testing Calorimeter, Batteries, 2016, 2, 12
55. Jun Huang#, Jianbo Zhang*, Michael Eikerling*, Theory of Electrostatic Phenomena in Water-Filled Pt Nanopore, Faraday Discussions, 2016, 193:47-446
56. Fuqiang An#, Lufan Chen, Jun Huang, Jianbo Zhang*, Ping Li*, Rate Dependence of Cell-to-Cell Variations of Lithium-ion Cells, Scientific Report, 2016, 6 :35051(文章号)
57. Cheng Wang#*, Jianbo Zhang , Shubo Wang , Sijia Hao , Jianqiu Li, Zongqiang Mao , Zhiming Mao, Minggao Ouyang, Zhixiang Liu, Degradation study of Membrane Electrode Assembly with PTFE/Nafion composite membrane utilizing accelerated stress technique, International Journal of Hydrogen Energy, 2016, 41(36): 16212-16219
58. Guangying Chen#*, Cheng Wang*, Yijie Lei, Jianbo Zhang*, Zongqiang Ma, Jianwei Guo, Jianlong Wang, Catalyst layer doped with phosphotungstic acid for degradation mitigation in Polymer Electrolyte Membrane Fuel Cells, International Journal of Hydrogen Energy, 2016, 41(36): 16167-16172
59. 刘宇隆#,娄忠良,宋韶灵,吴可,吴宁宁,黄俊,张剑波*,LMO和 NMC混合正极动力锂离子电池的衰减机理(Degradation mechanism of lithium-ion power battery with LMO + NMC blended positive electrode),汽车安全与节能学报,2016年,第7卷,第3期
60. Jun Huang#, Ali Malek, Jianbo Zhang*, Michael H. Eikerling*, Non-monotonic Surface Charging Behavior of Platinum: A Paradigm Change, The Journal of Physical Chemistry C, 2016, 120(25):13587-13595
61. Laisuo Su#, Jianbo Zhang, Jun Huang, Hao Ge, Zhe Li*, Fengchao Xie, Bor Yann Liaw, Path dependence of lithium ion cells aging under storage conditions, Journal of Power Sources, 2016, 315:35-46
62. Jun Huang#, Jianbo Zhang*, Theory of Impedance Response of Porous Electrodes: Simplifications, Inhomogeneities, Non-Stationarities and Applications, Journal of The Electrochemical Society, 2016, 163(9):A1983-A2000
63. Fuqiang An#, Jun Huang, Chengyu Wang, Zhe Li, Jianbo Zhang*, Sean Wang, Ping Li*, Cell sorting for parallel lithium-ion battery systems: Evaluation based on an electric circuit model, Journal of Energy Storage, 2016, 6:195-203
64. 王诚#,黄俊,赵波,肖宇,赵鹏程,李建秋,张剑波*,PEMFC全车况性能衰减的研究进展(Research progress of PEMFC degradation in full operating modes for electric vehicle),汽车安全与节能学报, 2016 年, 第7卷 第1期
65. 王诚#,黄俊,王树博,张剑波*,李建秋,欧阳明高,车用燃料电池启停工况性能衰减(The Performance Degradation Study of Vehicle Fuel Cell under Start-Stop Operating Mode),化学通报,2016,79(11):1001-1011
66. 王诚#*,赵波,张剑波,质子交换膜燃料电池膜电极的关键技术(Progress of membrane electrode assembly technology for proton exchange membrane fuel cell),科技导报,2016,34(6):62-68
67. Wang Cheng#*, Wang Shubo, Linfa Peng , Junliang Zhang , Zhigang Shao , Jun Huang ,
68. Chunwen Sun , Minggao Ouyang and Xiangming He,Recent Progress on The Key Materials and Components for Proton Exchange Membrane Fuel Cells in Vehicle Applications, Energies, 2016, 9(8)
69. Jun Huang# , Zhe Li, Bor Yann Liaw, Jianbo Zhang*, Graphical analysis of electrochemical impedance spectroscopy data in Bode and Nyquist representations, Journal of Power Sources, 2016, 309:82-98.
70. Hao Ge#, Jun Huang, Jianbo Zhang, and Zhe Li*,Temperature-adaptive alternating current preheating of lithium-ion batteries with lithium deposition prevention, Journal of The Electrochemical society, 2016 163(2): A290-A299.
71. Su Laisuo#, Zhang Jianbo, Wang caijuan, Zhng Yakun, Li Zhe*, Song Yang, Jin Ting, Ma Zhao, Identifying Main Factors of Capacity Fading in Lithium Ion Cells using Orthogonal Design of Experiments, Applied Energy, 2016, 201-210.
72. Jun Huang#, Zhe Li ,Hao Ge, and Jianbo Zhang*, Analytical solution to the impedance of electrode/electrolyte interface in lithium-ion batteries, Journal of The Electrochemical society, 2015, 162 (13) A1-A12.
73. Jun Huang#, Zhe Li , Bor Yann Liaw , Shaoling Song , Ningning Wu , Jianbo Zhang*, Entropy coefficient of a blended electrode in a lithium-ion batteries, Journal of the electrochemical society, 2015, 162 (12) A2367-A2371.
74. Jun Huang#, Hao Ge, Zhe Li*, and Jianbo Zhang, Dynamic Electrochemical Impedance Spectroscopy of a Three-Electrode Lithium-Ion Battery during Pulse Charge and Discharge, Electrochimica Acta, 2015, 176, 311-320.
75. Yong Zheng# , Yan-Bing He , Kun Qian , Baohua Li*, Xindong Wang , Jianling Li, Sum Wai Chiang, Cui Miao, Feiyu Kang, Jianbo Zhang, Deterioration of lithium iron phosphate/graphite power batteries under high-rate discharge cycling, Electrochimica Acta, 2015, 176, 311-320.
76. Bin Wu#, Zhe Li, Jianbo Zhang*, Thermal design for the pouch-type large-format lithium-ion batteries. Part I. Thermo-electrical modeling and origins of temperature non-uniformity, Journal of the Electrochemical Society, 2015, 162(1): A181-A191.
77. Jun Huang#, Zhe Li, Jianbo Zhang*, Shaoli Song, Zhongliang Lou, Wu Ningning, An Analytical Three-Scale Impedance Model for Porous Electrode with Agglomerates in Lithium-Ion Batteries, Journal of Electrochemical Society, 2015, 162(4): A585-A595.
78. Jianbo Zhang#, Hao Ge, Zhe Li*, Mingzhan Ding, Internal Heating of Lithium-ion Batteries Using Alternating Current Based on the Heat Generation Model in Frequency Domain, Journal of Power Sources, 2015, 273: 1030-1037.
79. J. Huang#, Z. Li, J. Zhang*, Dynamic electrochemical impedance spectroscopy reconstructed from continuous impedance measurement of single frequency during charging/discharging, Journal of Power Sources , 2015, 273, 1098-1120.
80. 王诚#*;王树博;张剑波;李建秋;欧阳明高;王建龙. 车用质子交换膜燃料电池材料部件(The Key Materials and Components for Proton Exchange Membrane Fuel Cell), 化学进展, 2015,27(2/3):310-320
81. 王诚#*;王树博;张剑波;李建秋;王建龙;欧阳明高. 车用燃料电池耐久性研究(The Durability Research on the Proton Exchange Membrane Fuel Cell for Automobile Application), 化学进展, 2015,27(4):425-435
82. Zheng Yong, He Yanbing, Qian Kun, Li Baohua, Wang Xindong, Li Jianling, Chiang, Sum Wai, Miao Cui, Kang Feiyu, Zhang Jianbo, Deterioration of lithium iron phosphate/graphite power batteries under high-rate discharge cycling, ELECTROCHIMICA ACTA,2015,176:270-279
83. 王诚#*;吴国春; 张剑波;王建龙;毛宗强, 低温SOFC复合电解质LSGM-碳酸盐的制备及性能(Preparation and Properties of LSGM-(Li/Na)(2)CO3 Composite Electrolytes for LT-SOFC), 稀有金属材料与工程(RARE METAL MATERIALS AND ENGINEERING), 2017, 46(1):257-261
84. Liu Mingyang#, Wang Cheng*; Zhang Jianbo; Wang Jianlong; Hou Zhongjun ; Mao Zongqiang. Diagnosis of membrane electrode assembly degradation with drive cycle test technique, International Journal of Hydrogen Energy, 2014, 39(26):14370-14375
85. 刘锋#,王诚*, 张剑波, 兰爱东, 李建秋, 欧阳明高. 质子交换膜燃料电池有序化膜电极(Ordered Membrane Electrode Assembly of Proton Exchange Membrane Fuel Cell), 化学进展(Progrss in Chemistry),2014,26(11): 1763 -1771
86. Jianbo Zhang#, Bin Wu*, Zhe Li*, Jun Huang, Simultaneous estimation of thermal parameters for large-format laminated lithium-ion batteries, Journal of Power Sources, 2014, 259, 106-116.
87. Jianbo Zhang#, Jun Huang, Zhe Li*, Bin Wu, Zhihua Nie, Ying Sun, Fuqiang An, Ningning Wu, Comparison and validation of methods for estimating heat generation rate of large-format lithium-ion batteries, Journal of Thermal Analysis and Calorimetry, 2014, 117(1):447-461.
88. Zhe Li#, Jun Huang, Bor Yann Liaw*, Viktor Metzler, Jianbo Zhang*, A review of lithium deposition in lithium-ion and lithium metal secondary batteries, Journal of Power Sources, 2014, 254, 168-182.
89. Jun Huang#, Jianbo Zhang, Zhe Li*, Shaoling Song, Ningning Wu, Exploring differences between charge and discharge of LiMn2O4/Li half-cell with dynamic electrochemical impedance spectroscopy, Electrochimica Acta, 2014, 131, 228-235.
90. Jun Huang#, Hao Ge, Zhe Li, Jianbo Zhang*, An agglomerate model for the impedance of secondary particle in lithium-ion battery electrode, Journal of The Electrochemical Society, 2014, 161(8): E3202-E3215.
91. Jianbo Zhang#, Jun Huang, Lufan Chen, Zhe Li, Study of discharge behavior and uniformity of lithium-ion batteries at low temperatures, Journal of Automotive Safety and Energy(汽车安全与节能学报), 2014, 5(4), 391-400.
92. 吴彬#,李哲,张剑波*,235层叠式锂离子电池展向温度分布的分析解及基于分析解的热设计优化(Thermal design optimization of laminated lithium ion battery based on the analytical solution of planar temperature distribution),中国科学 技术科学(Scientia Sinica Technologica,) 2014,44(11): 1154-1172
93. 张剑波#,葛昊,王诚*. 从文献统计看世界车用燃料电池研发的生态与演变—主要国家研发布局对比与启示(The evolution of worldwide research and development on fuel cell for
94. vehicle application based on statistical analysis of literature:A comparative study of major countries), 科学通报(Chinese Science Bulletin), 2014, 59(27): 2743-2759.
95. 张剑波#, 吴彬, 李哲*. 车用动力锂离子电池热模拟与热设计的研发状况与展望(Thermal Modeling and Thermal Design of Iithium-Ion Batteries for Automotive Application: Status and Prospects),集成技术(Journal of Integration Technology),2014, 3(1):18-26.
96. 李平#、安富强、张剑波、王浩然,电动汽车用锂离子电池的温度敏感性研究综述(Temperature sensitivity of lithium-ion battery: A review),汽车安全与节能学报(J Automotive Safety and Energy),2014, 5(3):224-237
97. 廖斯达#、宋士强、张剑波、王保国*,液流电池理论与技术——全钒液流电池的数值模拟分析(Simulation of the effects of electrode parameters on all-vanadium redox flow battery performance),储能科学与技术(Energy Storage Science and Technology),2014,3(4):396-405
98. Zhe Li#, Jianbo Zhang*, Bin Wu, Jun Huang, Zhihua Nie, Ying Sun, Fuqiang An, Ningning Wu, Examining temporal and spatial variations of internal temperature in large-format laminated battery with embedded thermocouples, Journal of Power Sources, 2013, 241(1): 536-553.
99. 张剑波#, 连芳, 高学平, 李建刚, 范丽珍, 何向明,锂离子电池及材料发展前瞻,—第16 届国际锂电会议评述(Prospect for Lithium Ion Battery and Material, --Review of the 16th International Symposium on LithiumBattery),中国科学: 化学,2012 年第 42 卷第 8 期: 1252 ~ 1262.
100. 张剑波#,卢兰光,李哲,车用动力电池系统的关键技术与学科前沿(Key technologies and fundamental academic issues for traction battery systems),汽车安全与节能学报(2012),V3,No2,P87-104 .
101. 李建军#,王莉,高剑,何向明,田光宇,张剑波,动力锂离子电池的安全性控制策略及其试验验证,汽车安全与节能学报 2012 Vol. 3 (2): 151-157.
102. 何向明#,田光宇,张剑波,从SCI收录论文数量统计看锂离子电池研究动态,锂电世界,2012,2:79-83.