孔凡鹏科研成果

基本信息 教学和招生 科学研究 论文著作 新建主栏目 基本信息 名称 孔凡鹏，博士。现任化工与化学学院电化学工程系副教授/博士生导师，入选哈尔滨工业大学青年拔尖人才选聘计划，入选黑龙江省自然科学基金优秀青年项目，首批“小米青年学者”。 主要从事于燃料电池、电催化和钠离子电池的研究。近5年，在Sci. Adv., Angew. Chem. Intd. Ed., ACS Catal., Adv. Energy Mater., Appl. Catal. B-Environ. 等杂志共发表SCI论文30余篇。研究成果受到海内外近百位知名学者的正面引用与评价。先后以骨干人员身份参与并完成国家自然科学基金（重点项目）、国家重点发计划子课题、加拿大巴拉德动力系统公司项目等多个项目。目前主持国家自然科学基金，中国博士后科学基金特别资助，哈尔滨工业大学科研创新基金等多个项目。 教育经历 标题 本科 起讫时间 2010.09-2014.07 所学专业 化学工程与工艺 学习机构 哈尔滨工业大学 学历 学士 简单介绍 标题 博士研究生 起讫时间 2014.09-2019.12 所学专业 化学工程与技术（导师：尹鸽平教授） 学习机构 哈尔滨工业大学 学历 博士 简单介绍 标题 联合培养 起讫时间 2017.12-2019.04 所学专业 机械材料与工程（Supervisor: Prof. Xueliang Sun） 学习机构 加拿大西安大略大学 学历 简单介绍 工作经历 标题 工作单位 哈尔滨工业大学 职位/职称 助理教授 起讫时间 2020.09-2022.12 简单介绍 标题 工作单位 哈尔滨工业大学 职位/职称 副教授（青年拔尖、准聘） 起讫时间 2023.01- 简单介绍 主要任职 任职名称 The Innovation青年编委 Frontiers in Energy Research客座编辑 任职时间 简单介绍 荣誉称号 称号名称 2022 哈工大首批“小米青年学者” 获奖时间 获奖地点 简单介绍 讲授课程 名称 电化学测量（双语）本科生学位课 （电化学专业四大基础课之一） 贵金属基电极的电化学行为研究 （电化学方向专业实验） 微电极技术测定电极过程动力学 （电化学方向专业实验） 燃料电池与先进非贵金属催化剂 （本科生选修课） 著作 名称 Fanpeng Kong*, Qingsong Liu, Wei Zhao and Jiajun Wang* Chapter 8. Principles and Applications of Industrial X-ray Computed Tomography Book: Advanced X-ray Imaging of Electrochemical Energy Materials and Devices, 2021, Springer. 招生信息 名称 博士研究生，1-2名/年。 硕士研究生，2-3名/年。 欢迎你的加入！ 研究领域 名称 （1）燃料电池、电催化 电解水制氢 新型高性能低铂催化剂 高稳定性酸性非贵金属催化剂 （2）电池体系研究 Li-S电池和SRR 钠离子电池 科研项目 名称 国家自然科学基金（青年项目） 中国博士后科学基金（特别资助） 哈尔滨工业大学科研创新基金 重庆市自然科学基金 城市水资源与水环境国家重点实验室开放基金 期刊论文 名称 1. Zhu, J.; Kang, C.; Mo, S.; Zhang, Y.; Xiao, X.; Kong, F.*; Yin, G., Regulating the solvation structure of lithium ion for smooth Li metal deposition in quasi-solid-state batteries. ChemSusChem 2023. 2. Kong, F.; Liu, X.; Song, Y.; Qian, Z.; Li, J.; Zhang, L.; Yin, G.; Wang, J.; Su, D.; Sun, X., Selectively Coupling Ru Single Atoms to PtNi Concavities for High-Performance Methanol Oxidation via d-Band Center Regulation. Angewandte Chemie-International Edition 2022, 61 (42). 3. Sun, X.; Song, Y.; Liu, Q.; Zhang, X.; An, H.; Sun, N.; Shi, Y.; Fu, C.; Huo, H.; Xie, Y.; Tong, Y.; Kong, F.*; Wang, J., Tailoring electronic-ionic local environment for solid-state Li-O2 battery by engineering crystal structure. Science advances 2022, 8 (35), eabq6261-eabq6261. 4. Li, L.; Wen, Y.; Han, G.; Liu, Y.; Song, Y.; Zhang, W.; Sun, J.; Du, L.; Kong, F.*; Ma, Y.; Gao, Y.; Wang, J.; Du, C.; Yin, G., Tailoring the stability of Fe-N-C via pyridinic nitrogen for acid oxygen reduction reaction. Chemical Engineering Journal 2022, 437. 5. Ren, L.; Kong, F.; Wang, X.; Song, Y.; Li, X.; Zhang, F.; Sun, N.; An, H.; Jiang, Z.; Wang, J., Triggering ambient polymer-based Li-O-2 battery via photo-electro-thermal synergy. Nano Energy 2022, 98. 6. Sun, B.; Zheng, W.; Xie, B.; Kang, C.; Zhu, J.; Kong, F.*; Xiang, L.; Cui, C.; Lou, S.; Du, C.; Zuo, P.; Xie, J.; Yin, G., Single-Atom Tailored Hierarchical Transition Metal Oxide Nanocages for Efficient Lithium Storage. Small 2022, 18 (22). 7. Song, Y.; Kong, F.; Sun, X.; Liu, Q.; Li, X.; Ren, L.; Xie, Y.; Shen, Y.; Wang, J., Highly Reversible Solid-State Lithium-Oxygen Batteries by Size-Matching Between Fe-Fe Cluster and Li2-xO2. Advanced Energy Materials 2022. 8. Kong, F.*; Shi, W.; Song, Y.; Ren, L.; Sun, X.; Wang, J., Surface/Near-Surface Structure of Highly Active and Durable Pt-Based Catalysts for Oxygen Reduction Reaction: A Review. Advanced Energy and Sustainability Research 2021, 2 (7). 9. Sun, N.; Song, Y.; Liu, Q.; Zhao, W.; Zhang, F.; Ren, L.; Chen, M.; Zhou, Z.; Xu, Z.; Lou, S.; Kong, F.; Wang, J.; Tong, Y.; Wang, J., Surface-to-Bulk Synergistic Modification of Single Crystal Cathode Enables Stable Cycling of Sulfide-Based All-Solid-State Batteries at 4.4 V. Advanced Energy Materials 2022, 12 (29). 10. Sun, B.; Zheng, W.; Lou, S.; Xie, B.; Cui, C.; Zhang, G.-X.; Kong, F.; Ma, Y.; Du, C.; Zuo, P.; Xie, J.; Yin, G., Synergistically Tailoring the Electronic Structure and Ion Diffusion of Atomically Thin Co(OH)(2) Nanosheets Enable Fast Pseudocapacitive Sodium Ion Storage. Advanced Functional Materials 2022. 11. Liu, Y.; Ye, J.; Kong, F.; Du, C.; Zuo, P.; Du, L.; Yin, G., Pt/C-TiO2 as Oxygen Reduction Electrocatalysts against Sulfur Poisoning. Catalysts 2022, 12 (5). 12 Kong, F.; Si, R.; Chen, N.; Wang, Q.; Li, J.; Yin, G.; Gu, M.; Wang, J.; Liu, L.-M.; Sun, X., Origin of hetero-nuclear Au-Co dual atoms for efficient acidic oxygen reduction. Applied Catalysis B: Environmental 2022, - 301. (Highlighted by catalysts, Most Downloaded Articles) 13 Kong, F.; Ren, Z.; Banis, M. N.; Du, L.; Zhou, X.; Chen, G.; Zhang, L.; Li, J.; Wang, S.; Li, M.; Doyle-Davis, K.; Ma, Y.; Li, R.; Young, A. P.; Yang, L.; Markiewicz, M.; Tong, Y.; Yin, G.; Du, C.; Luo, J.; Sun, X., Active and Stable Pt-Ni Alloy Octahedra Catalyst for Oxygen Reduction via Near-Surface Atomical Engineering. ACS Catalysis 2020, 10, 4205-4214. (Highlighted by Yanzhichengli) 14 Kong, F.; Liu, S.; Li, J.; Du, L.; Banis, M. N.; Zhang, L.; Chen, G.; Doyle-Davis, K.; Liang, J.; Wang, S.; Zhao, F.; Li, R.; Du, C.; Yin, G.; Zhao, Z.; Sun, X., Trimetallic Pt-Pd-Ni octahedral nanocages with subnanometer thick-wall towards high oxygen reduction reaction. Nano Energy 2019, 64. (Highlighted by Electro-catalysts) 15 Kong, F.; Banis, M. N.; Du, L.; Zhang, L.; Zhang, L.; Li, J.; Doyle-Davis, K.; Liang, J.; Liu, Q.; Yang, X.; Li, R.; Du, C.; Yin, G.; Sun, X., Highly stable one-dimensional Pt nanowires with modulated structural disorder towards the oxygen reduction reaction. Journal of Materials Chemistry A 2019, 7, 24830-24836. (Journal of Materials Chemistry A Hot Papers) 16 Kong, F.; Du, C.; Ye, J.; Chen, G.; Du, L.; Yin, G., Selective Surface Engineering of Heterogeneous Nanostructures: In Situ Unraveling of the Catalytic Mechanism on Pt Au Catalyst. ACS Catalysis 2017, 7, 7923-7929. 17 Kong, F.*; Shi, W.; Song, Y.; Ren, L.; Sun, X.; Wang, J.*, Surface/Near-Surface Structure of Highly Active and Durable Pt-Based Catalysts for Oxygen Reduction Reaction: A Review. Advanced Energy and Sustainability Research 2021, 2, 2100025. (Hot Topic: Surface and Near-Surface) 18 Sun, Y.; Kong, F.*; Chen, Z.; Wang, H.; Wang, P.; Han, S.; Wu, S.; Lu, W.; Wang, J.*, Nanocomposite of platinum and prussian blue: A highly active and stable electrocatalyst towards oxygen reduction reaction in acidic media. International Journal of Hydrogen Energy 2021, 46, 30718-30726. 19 Sun, B.; Zheng, W.; Yin, X.; Chen, X.; Kong, F.*; Lou, S.; Du, C.; Zuo, P.; Xie, J.; Wang, J.; Yin, G.*, Tailoring Porous Transition Metal Oxide for High-Performance Lithium Storage. The Journal of Physical Chemistry C 2021. (Cover art) 20 Liu, Y.-X.; Zhang, W.-Y.; Han, G.-K.; Zhou, Y.-W.; Li, L.-F.; Kong, F.-P.; Gao, Y.-Z.; Du, C.-Y.; Wang, J.-J.; Du, L.; Cai, W.-B.; Yin, G.-P., Deactivated Pt Electrocatalysts for the Oxygen Reduction Reaction: The Regeneration Mechanism and a Regenerative Protocol. ACS Catalysis 2021, 11, 9293-9299. 21 Liu, Q.; Zhu, G.; Li, R.; Lou, S.; Huo, H.; Ma, Y.; An, J.; Cao, C.; Kong, F.; Jiang, Z.; Lu, M.; Tong, Y.; Ci, L.; Yin, G.; Wang, J., Fast lithium transport kinetics regulated by low energy-barrier LixMnO2 for long-life lithium metal batteries. Energy Storage Materials 2021, 41, 1-7. 22 Li, J.; Banis, M. N.; Ren, Z.; Adair, K. R.; Doyle-Davis, K.; Meira, D. M.; Finfrock, Y. Z.; Zhang, L.; Kong, F.; Sham, T.-K.; Li, R.; Luo, J.; Sun, X., Unveiling the Nature of Pt Single-Atom Catalyst during Electrocatalytic Hydrogen Evolution and Oxygen Reduction Reactions. Small 2021, 17. 23 Liu, Y.; Du, L.; Kong, F.; Han, G.; Gao, Y.; Du, C.; Zuo, P.; Yin, G., Sulfur Dioxide-Tolerant Bimetallic PtRu Catalyst toward Oxygen Electroreduction. ACS Sustainable Chemistry & Engineering 2020, 8, 1295-1301. 24 Li, C.; Chen, Z.; Yi, H.; Cao, Y.; Du, L.; Hu, Y.; Kong, F.; Campen, R. K.; Gao, Y.; Du, C.; Yin, G.; Zhang, I. Y.; Tong, Y., Polyvinylpyrrolidone-Coordinated Single-Site Platinum Catalyst Exhibits High Activity for Hydrogen Evolution Reaction. Angewandte Chemie-International Edition 2020, 59, 15902-15907. 25 Wang, S.; Liao, J.; Yang, X.; Liang, J.; Sun, Q.; Liang, J.; Zhao, F.; Koo, A.; Kong, F.; Yao, Y.; Gao, X.; Wu, M.; Yang, S.-Z.; Li, R.; Sun, X., Designing a highly efficient polysulfide conversion catalyst with paramontroseite for high-performance and long-life lithium-sulfur batteries. Nano Energy 2019, 57, 230-240. 26 Du, L.; Lou, S.; Chen, G.; Zhang, G.; Kong, F.; Qian, Z.; Du, C.; Gao, Y.; Sun, S.; Yin, G., Direct dimethyl ether fuel cells with low platinum-group-metal loading at anode: Investigations of operating temperatures and anode Pt/Ru ratios. Journal of Power Sources 2019, 433. 27 He, M.; Kong, F.; Yin, G.; Lv, Z.; Sun, X.; Shi, H.; Gao, B., Enhanced hydrogen evolution reaction activity of hydrogen-annealed vertical MoS2 nanosheets. RSC Advances 2018, 8, 14369-14376. 28 Wang, Y.; Du, C.; Sun, Y.; Han, G.; Kong, F.; Yin, G.; Gao, Y.; Song, Y., The Enhanced CO Tolerance of Platinum Supported on FeP Nanosheet for Superior Catalytic Activity Toward Methanol Oxidation. Electrochimica Acta 2017, 254, 36-43. 29 Chen, G.; Du, L.; Du, C.; Kong, F.; Sun, Y.; Qian, Z.; Yin, G.; Gao, Y., Heterogeneous Nanostructure of Ternary PtRu-Au/C Nano-catalyst Towards Formic Acid Oxidation. Electrochemistry 2017, 85, 133-135. 30 Meku, E.; Du, C.; Wang, Y.; Du, L.; Sun, Y.; Kong, F.; Yin, G., Concentration Gradient Pd-Ir-Ni/C Electrocatalyst with Enhanced Activity and Methanol Tolerance for Oxygen Reduction Reaction in Acidic Medium. Electrochimica Acta 2016, 192, 177-187. 31 Meku, E.; Du, C.; Sun, Y.; Du, L.; Wang, Y.; Kong, F.; Yin, G., Composition optimization of ternary palladium-iridium-iron alloy catalysts for oxygen reduction reaction in acid medium. RSC Advances 2016, 6, 22754-22763. 32 Du, L.; Kong, F.; Chen, G.; Du, C.; Gao, Y.; Yin, G., A review of applications of poly(diallyldimethyl ammonium chloride) in polymer membrane fuel cells: From nanoparticles to support materials. Chinese Journal of Catalysis 2016, 37, 1025-1036. 33 Du, L.; Du, C.; Chen, G.; Kong, F.; Yin, G.; Wang, Y., Metal-Organic Coordination Networks: Prussian Blue and Its Synergy with Pt Nanoparticles to Enhance Oxygen Reduction Kinetics. ACS Applied Materials & Interfaces 2016, 8, 15250-15257. 34 Chen, G.; Li, M.; Kuttiyiel, K. A.; Sasaki, K.; Kong, F.; Du, C.; Gao, Y.; Yin, G.; Adzic, R. R., Evaluation of Oxygen Reduction Activity by the Thin-Film Rotating Disk Electrode Methodology: the Effects of Potentiodynamic Parameters. Electrocatalysis 2016, 7, 305-316.