刘建国

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姓名:刘建国

职称:教授、博导

研究方向:

氢能与燃料电池的关键材料和技术研究,主要包括电解制氢和燃料电池新型电催化剂设计与制备、高性能膜电极设计与制备、电堆和系统集成、寿命衰减机理和提升技术以及其他高性能新型化学电源等;同时也开展氢能与低碳发展战略和规划研究。

欢迎报考硕士研究生、博士研究生以及博士后(讲师博士后)。同时课题组正在组建氢能与燃料电池研究团队,欢迎海内外人才申请讲师、副教授以及教授位置,具体可以邮件直接联系。

联系方式:

邮箱:jianguoliu@ncepu.edu.cn


个人简介及主要荣誉称号:

刘建国,1975年10月出生于黑龙江省。1997年毕业于大连理工大学获工学学士学位;2004年中科院大连化学物理研究所毕业获工学博士学位。2004年3月-2004年6月,中科院大连化学物理研究所助理研究员;2004年6月-2005年8月,香港科技大学机械工程系,访问学者;2005年8月-2007年3月,英国纽卡斯尔大学化学工程系,博士后;2007年3月-2013年12月,南京大学材料科学与工程系副教授;2014年1月-2021年6月,南京大学现代工学院教授,博士生导师;2021年7月-现在,华北电力大学二级教授,博士生导师。国家自然科学二等奖获得者,国家“**”科技创新领军人才,科技部创新人才推进计划中青年科技创新领军人才,中国内燃机学会燃料电池动力分会副主任委员。入选“江苏省333工程第二层次人才”、“江苏省青蓝工程中青年学术带头人”、江苏省“六大人才高峰高层次人才”。

长期从事氢能与燃料电池方面的研究,发表SCI论文120余篇,引用超过6300次,H因子为42,承担了国家重点专项课题、国家自然科学基金以及江苏省**等项目。作为中国工程院战略咨询中心氢能特聘专家,完成了山东、广东、江苏等地区的氢能规划和战略研究。担任PNSMI(SCI期刊)和《电化学》杂志编委,出版了《可再生能源导论》、《先进材料合成与制备技术》和《燃料电池关键材料与技术》等教材和专著。


主要科研项目情况:

[1]国家科技部重点研发计划子课题,大功率燃料电池电堆技术研究与开发应用,2017.07-2021.06

[2]国家科技部重点研发计划课题,高性能纳米核壳结构合金催化剂开发,2016.07-2021.06

[3]国家自然科学基金委员会面上项目,天然酚类抗氧化剂在车载燃料电池质子交换膜中的应用及其机理研究,2017.01-2020.12

[4]中国工程院院地合作项目重大项目,江苏省氢能产业发展路径研究, 2019.10-2020.12

[5]中国工程院院地合作项目重大项目,广东省氢能发展战略研究,2018.11-2019.12

[6]国家自然科学基金委员会面上项目,基于掺氮石墨烯的高性能Fe-N-C非铂燃料电池催化剂的制备与表征,2015.01-2018.12

[7]国家自然科学基金委员会国际(地区)合作与交流项目,低铂和非铂催化剂在质子交换膜燃料电池的应用研究,2017.01-2017.12

[8]国家自然科学基金委员会面上项目,间歇微波法制备过渡金属氧化物-石墨烯复合材料用于燃料电池催化剂载体的性能与稳定性研究,2012.01-2015.12


主要获奖情况:

[1] 2020年中组部**

[2] 2018年获得科技部中青年科技创新领军人才

[3] 2016年江苏省杰青基金获得者

[4] 2018年获得江苏省333工程第二层次人才

[5] 2015年获得江苏省青蓝工程中青年学术带头人

[6] 2015年获得 江苏省六大人才高峰高层次人才B类

[7] 2013年度国家自然科学二等奖(排名第四)


近五年代表性文章:

2021年

1. Ding, Rui; Chen, Yawen; Chen, Ping; Wang, Ran; Wang, Jiankang; Ding, Yiqin; Yin, Wenjuan; Liu, Yide; Li, Jia*; Liu, Jianguo*, Revolutionary material research paradigm driven by machine learning discovered underlying decisive factor and new mechanism, ACS Catalysis, 2021, Accepted.

2. Youxiu Huo, Qingbing Li, Zhiyan Rui, Rui Ding, Jia Liu, Jia Li*, Jianguo Liu*, A highly stable reinforced PEM assisted by resveratrol and polydopamine-treated PTFE, Journal of Membrane Science, 2021, 635, 119453.

3. Rui Ding, Wenjuan Yin, Gang Cheng, Yawen Chen, Jiankang Wang, Ran Wang, Zhiyan Rui, Jia Li*, Jianguo Liu*, Boosting the optimization of membrane electrode assembly in proton exchange membrane fuel cells guided by explainable artificial intelligence, Energy and AI, 2021, 5, 100098.

4. Rui Ding, Yiqin Ding, Hongyu Zhang, Wenjuan Yin, Ran Wang, Zihan Xu, Yide Liu, Jiankang Wang, Jia Li*, Jianguo Liu*, Applying machine learning to boost the development of high-performance membrane electrode assembly for proton exchange membrane fuel cells, Journal of Materials Chemistry A, 2021, 9, 6841-6850. (inside cover)

2020年

1. Rui Ding, Ran Wang, Yiqin Ding, Wenjuan Yin, Yide Liu, Jia Li*, Jianguo Liu*, Designing AI-aided analysis and prediction models for nonprecious metal electrocatalyst-based proton exchange membrane fuel cells, Angewandte Chemie International Edition, 2020, 59, 19175-19183.

2. Wang X, Jia Y, Mao X, Liu DB, He WX, Li J, Liu JG, Yan XC, Chen J, Son L, Du AJ, Yao XD*, Edge-Rich Fe-N4 Active Sites in Defective Carbon for Oxygen Reduction Catalysis, Advanced Materials, 2020, https://doi.org/10.1002/ adma.202000966.

3. Pei YX, Wang YX, Darraf Y, Chang AY, Zhao H, Liu X, Liu JG, Lvov Y*, Wang SN*, Confining sulfur particles in clay nanotubes with improved cathode performance of lithium–sulfur batteries, Journal of Power Sources, 2020, 450, 227698.

4. Wang F, Zhang Q, Rui ZY, Li J, Liu JG*, High-Loading Pt–Co/C Catalyst with Enhanced Durability toward the Oxygen Reduction Reaction through Surface Au Modification, ACS Appl. Mater. Interfaces 2020, 12, 30381-30389.

5. Ding R, YD Liu, ZY Rui, J Li*, JG Liu*, ZG Zou, Facile grafting strategy synthesis of single-atom electrocatalyst with enhanced ORR performance, Nano Research, 2020, 13, 1519-1526.

6. Lin ZC, Sheng Y, Li J, Rui ZY, Liu Y, Liu JG*, Zou ZG, Ternary heterogeneous Pt–Ni–Au nanowires with enhanced activity and stability for PEMFCs, ChemComm, 2020, 56, 4276-4279.

7. Li YX, Zhu X, Chen YW, Zhang SQ, Li Jia, Liu JG*, Rapid synthesis of highly active Pt/C catalysts with various metal loadings from single batch platinum colloid, Journal of Energy Chemistry, 2020, 47, 138–145.

8. Li J, Zhu X, Wang JY, Rui ZY, Zhang SQ, Li, YX, Ding R, He WX, Liu JG*, Zou ZG, Iron-Containing Porphyrins Self-Assembled on ZnO Nanoparticles as Electrocatalytic Materials for Oxygen Reduction, ACS Applied Nano Materials, 2020, 47, 138-145.

2019年

1. Du ML, Yang P, He WX, Bie SY, Zhao H, Jin J, Zou ZG, Liu JG*, Enhanced high-voltage cycling stability of Ni-rich LiNi0.8Co0.1Mn0.1O2 cathode coated with Li2O–2B2O3, Journal of Alloys and Compounds, 2019, 805, 991-998.

2. He WX, He XC, Du ML, Bie SY, Liu JG*, Wang YQ*, Liu M, Zhigang Zou, Yan WW, Zhao HM, Three-Dimensional Functionalized Carbon Nanotubes/Graphitic Carbon Nitride Hybrid Composite as Sulfur Host for High Performance Lithium-Sulfur Batteries, J. Phys. Chem. C, 2019, 123, 15924-15934.

3. Sun K, Li J, Wang F, He WX, Fei MF, Lu ZD, Zhang HG, Liu JG*, Zou ZG, Highly enhanced durability of a graphitic carbon layer decorated PtNi3 alloy electrocatalyst toward the oxygen reduction reaction, Chem Comm, 2019, 55, 5693-5696.

4. Bie SY, Du ML, He WX, Zhang HG, Yu ZT, Liu JG*,Liu M, Yan WW, Zhou L, Zou ZG, CNT@RuO2 as a high performance catalyst for the decomposition of Li2CO3,ACS Appl. Mater. Interfaces 2019, 11, 5146−5151.

5. Rui ZY, Wang JY, Li J, Yao YF, Huo YX, Liu JG*, Zou ZG, A highly durable quercetin-based proton exchange membrane for fuel cells, Journal of The Electrochemical Society, 2019, 166, F3052-F3507.

6. Zhao H, Yang P, Du ML, He WX, Liu M, Yan WW, Zhou L, Liu JG*, Gu ZB, Zou ZG, An ultrathin surface-nitrided porous titanium sheet as a current collector-free sulfur host for high-gravimetric-capacity lithium–sulfur batteries, Chem Comm, 2019, 55, 1655-1658.

7. Zhao X, Gunji TK, Kaneko T, Yoshida Y, Takao S, Higashi K, Uruga T, He WX, Liu JG, Zou ZG, An Integrated Single-Electrode Method Reveals the Template Roles of Atomic Steps: Disturb Interfacial Water Networks and Thus Affect the Reactivity of Electrocatalysts, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2019, 141, 8516-8526.

8. Zhong CL, Zhou QW, Li SW, Cao L, Li JC, Shen ZH, Ma HX, Liu JG, Lu MH, Zhang HG, Enhanced synergistic catalysis by a novel triple-phase interface design of NiO/Ru@Ni for the hydrogen evolution reaction, JOURNAL OF MATERIALS CHEMISTRY A, 2019, 7, 2344-2350.

2018年

1. Liu F, Sun K, Rui ZY, Liu JG*, Tian J, Liu RR, Luo J, Wang ZW, Yao YF, Huang L, Wang P, Zou ZG*, Highly Durable and Active Ternary Pt–Au–Ni Electrocatalyst for Oxygen Reduction Reaction, ChemCatChem, 2018, 10, 3049-3056.

2. He WX, Liu JG*, Sun W*, Yan WW, Zhou L, Wu CP, Wang JS, Yu XL, Zhao HM, Zhang TR, Zou ZG, Coprecipitation-Gel Synthesis and Degradation Mechanism of Octahedral Li1.2Mn0.54Ni0.13Co0.13O2as High-Performance Cathode Materials for Lithium-Ion Batteries, ACS Applied Materials & Interfaces, 2018, 10, 23018-23028.

3. Wei HW, Su XG, Liu JG*, Tian J, Wang ZW, Sun K, Rui ZY, Yang WW, Zou ZG**, A CeO2 modified phenylenediamine-based Fe/N/C with enhanced durability/ stability as non-precious metal catalyst for oxygen reduction reaction, Electrochemistry Communications, 2018, 88, 19-23.

4. Wang T, Wang JY, Wang X, Yang J, Liu JG*, Xu HX**, Graphene-templated synthesis of sandwich-like porous carbon nanosheets for efficient oxygen reduction reaction in both alkaline and acidic media, SCIENCE CHINA-MATERIALS, 2018, 61, 915-925.

5. Gao J, He CC, Liu JG, Ren PJ, Lu HB, Feng JY, Zou ZG, Yin Z, Wen XD, Tan XY, Polymerizable ionic liquid as a precursor for N, P co-doped carbon toward the oxygen reduction reaction, CATALYSIS SCIENCE & TECHNOLOGY, 2018, 8, 1142-1150.

6. Chen L, Yang WW, Zhang H, Liu JG, Zhou Y, Self-templated preparation of hollow mesoporous TiN microspheres as sulfur host materials for advanced lithium-sulfur batteries, JOURNAL OF MATERIALS SCIENCE, 2018, 53, 10363-10371.

2017年

1. Hu ZH, Song X*, Wei CL, Liu JG, Behavior and mechanisms for sorptive removal of perfluorooctane sulfonate by layered double hydroxides, Chemosphere, 2017, 187, 196-205.

2. Wan H, Yao YF*, Liu JG**, You Y, Li XY, Shao KN, Zou ZG, Engineering Mesoporosity Promoting High-Performance Polymer Electrolyte Fuel Cells, International Journal of Hydrogen Energy, 2017, 42, 21294-21304.

3. Li XY, Yao YF, Liu JG*, Zou ZG**, Highly microporous nitrogen doped graphene-like carbon material as an efficient fuel cell catalyst, International Journal of Hydrogen Energy, 2017, 42, 19903-19912.

4. Chen ZL, Zhou Y, Li YX, Liu JG*, Zou ZG**, Pt nanocrystals electrodeposited on reduced graphene oxide/carbon fiber paper with efficient electrocatalytic properties, Progress in Natural Science: Materials International, 2017, 27, 452-459.

5. Yang WW, Zhao H, Chen L, Fang C, Rui ZY, Yang LQ, Wan H, Liu JG*, Zhou Y, Wang P, Zou ZG**, Ferrous sulfide-assisted of hollow carbon spheres as sulfur host for advanced Lithium-sulfur batteries, Chemical Engineering Journal, 2017, 326, 1040-1047.

6. Yang WW, Liu JG*, Zhang X, Chen L, Zhou Y, Zou ZG*, Ultrathin LiFePO4 nanosheets self-assembled with reduced graphene oxide applied in high rate lithium ion batteries for energy storage, Applied Energy, 2017, 195, 1079-1085.

7. Shao KN, Fang C, Yao YF, Zhao CY, Yang Z, Liu JG*, Zou ZG*, An easily-modified FeCl3 method used to synthesize nanoporous gold with high surface area, RSC Advances, 2017, 7, 18327 - 18332

8. Wang YC, Huang L, Zhang P, Qiu YT, Sheng T, Zhou ZY*, Wang G, Liu JG*, Muhammad Rauf, Gu ZQ, Wu WT, Sun SG*, Constructing a Triple-Phase Interface in Micropores to Boost Performance of Fe/N/C Catalysts for Direct Methanol Fuel Cells, ACS Energy Lett., 2017 , 2, 645−650.

9. Yan XX, Liu KX, Wang T, You Y, Liu JG, Wang P, Pan XQ, Wang GF*, Luo J*, Zhu J*, Atomic interpretation of high activity on transition metal and nitrogen-doped carbon nanofibers for catalyzing oxygen reduction, Journal of Materials Chemistry A, 2017, 5, 3336–3345.