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冯立纲教授
发布日期:2017-06-21浏览次数:字号:[ ]

 

 冯立纲 博士, 教授,江苏特聘教授、博士生导师
专业:物理化学、材料化学 E-mail: fenglg11@gmail.com

个人简介:
2016.04- 扬州大学化学化工学院 特聘教授/教授
2014.04-2016.03 瑞典查尔莫斯理工大学(Chalmers)博士后研究
2013.02-2014.03 瑞士洛桑联邦理工大学(EPFL) 博士后研究
2012.02-2013.01 中国科学院长春应用化学研究所 研究助理
2006.07-2012.01 中国科学院长春应用化学研究所, 硕博连读 获博士学位

研究方向及兴趣:
1. 先进电化学能源转化与存储的基础过程与器件应用研究,包括燃料电池、锂电、超级电容器、电解水等关键材料与技术。
2. 高性能电催化材料及电催化过程的研究,包括贵金属催化剂的高效利用及非贵金属材料的研发。
 

(†equal contribution to the work; * (co)corresponding author)
[1] Yang, D.; Gu, Y.; Yu, X.; Lin, Z.; Xue, H.; Feng, L*., Nanostructured Ni2P-C as an Efficient Catalyst for Urea Electrooxidation. ChemElectroChem 2018, 5, 659-664.
[2] Xiong, J.; Li, J.; Shi, J.; Zhang, X.; Suen, N.-T.; Liu, Z.; Huang, Y.; Xu, G.; Cai, W*.; Lei, X.; Feng, L.*; Yang, Z.; Huang, L.; Cheng, H., In Situ Engineering of Double-Phase Interface in Mo/Mo2C Heteronanosheets for Boosted Hydrogen Evolution Reaction. ACS Energy Letters 2018, 3, 341-348.
[3] Wang, F.; Yu, H.; Tian, Z.; Xue, H.; Feng, L*., Active sites contribution from nanostructured interface of palladium and cerium oxide with enhanced catalytic performance for alcohols oxidation in alkaline solution. J. Energy Chemistry 2018, 27, 395-403.
[4] Wang, F.; Xue, H.; Tian, Z.; Xing, W.; Feng, L*., Fe2P as a novel efficient catalyst promoter in Pd/C system for formic acid electro-oxidation in fuel cells reaction. J. Power Sources 2018, 375, 37-42.
[5] 杨莉婷,冯立纲*.,张久俊, 浅析燃料电池. 自然杂志 2017, 39, 251-257.
[6] Xiong, J.; Cai, W*.; Shi, W.; Zhang, X.; Li, J.; Yang, Z.; Feng, L*.; Cheng, H., Salt-templated synthesis of defect-rich MoN nanosheets for boosted hydrogen evolution reaction. J. Mater. Chem. A 2017, 5, 24193-24198.
[7] Wang, S.; Chang, J.; Xue, H.; Xing, W.; Feng, L*., Catalytic Stability Study of a Pd-Ni2P/C Catalyst for Formic Acid Electrooxidation. ChemElectroChem 2017, 4, 1243-1249.
[8] Lindahl, N.; Zamburlini, E.; Feng, L.; Grönbeck, H.; Escudero-Escribano, M.; Stephens, I. E. L.; Chorkendorff, I.; Langhammer, C.; Wickman, B., High Specific and Mass Activity for the Oxygen Reduction Reaction for Thin Film Catalysts of Sputtered Pt3Y. Adv. Mater. Interfaces 2017, 4, 1700311
[9] Li, J.; Wang, S.; Zhang, B.; Wang, W.; L. Feng*, Highly efficient methanol electrooxidation catalyzed by co-action of Pd Y 2 O 3 in alkaline solution for fuel cells. Int. J. Hydrogen Energy 2017, 42, 12236-12245.
[10] L. Feng*, H. Xue, Advances in Transition-Metal Phosphide Applications in Electrochemical Energy Storage and Catalysis, ChemElectroChem, 4 (2017) 20-34.
[11] L. Feng*, J. Chang, K. Jiang, H. Xue, C. Liu, W.-B. Cai*, W. Xing*, J. Zhang, Nanostructured palladium catalyst poisoning depressed by cobalt phosphide in the electro-oxidation of formic acid for fuel cells, Nano Energy, 30 (2016) 355-361.
[12] J. Chang, L. Feng*, K. Jiang, H. Xue, W.-B. Cai*, C. Liu, W. Xing*, Pt-CoP/C as an alternative PtRu/C catalyst for direct methanol fuel cells, J. Mater. Chem. A, 4 (2016) 18607-18613.
以下为加入扬州大学之前的工作
[13] J. Chang, L. Feng*, C. Liu, W. Xing, Ni2P Makes Application of the PtRu Catalyst Much Stronger in Direct Methanol Fuel Cells, ChemSusChem, 8 (2015) 3340–3347
[14] L.A. Stern, L Feng†, F. Song, X. Hu, Ni2P as a Janus catalyst for water splitting: the oxygen evolution activity of Ni2P nanoparticles, Energy Environ. Sci. 8 (2015) 2347-2351. (Co-first author)
[15] B. Wickman, M. Fredriksson, L. Feng, N. Lindahl, J. Hagberg, C. Langhammer, Depth probing of the hydride formation process in thin Pd films by combined electrochemistry and fiber optics-based in situ UV/vis spectroscopy, Phys. Chem. Chem. Phys 17 (2015) 18953-18960.
[16]Y. Xiao, L. Feng*, C. Hu, V. Fateev, C. Liu, W. Xing, NiCo2O4 3 dimensional nanosheet as effective and robust catalyst for oxygen evolution reaction, RSC Advances 5 (2015) 61900-61905.
[17] L Feng*, K Li, J Chang, C. Liu, W. Xing, Nanostructured PtRu/C catalyst promoted by CoP as an efficient and robust anode catalyst in direct methanol fuel cells, Nano Energy, 15 (2015), 462–469.
[18] M. Xiao, L. Feng*, J. Zhu, C. Liu, W. Xing, Rapid synthesis of PtRu nano-sponge with different surface compositions and performance evaluation for methanol electrooxidation, Nanoscale, 7 (2015) 9467-9471.
[19] M. Xiao, J. Zhu, L. Feng*, C. Liu, W. Xing, Meso/Macroporous Nitrogen-Doped Carbon Architectures with Iron Carbide Encapsulated in Graphitic Layers as an Efficient and Robust Catalyst for the Oxygen Reduction Reaction in Both Acidic and Alkaline Solutions, Adv. Mater., 27 (2015) 2521-2527.
[20] M.H. Hansen, L.A. Stern, L. Feng, J. Rossmeisl, X. Hu, Widely available active sites on Ni2P for electrochemical hydrogen evolution - insights from first principles calculations, Phys. Chem. Chem. Phys. 17 (2015) 10823-10829.
[21] Q. Lv, L. Feng*, C. Hu, C. Liu, W. Xing, High-quality hydrogen generated from formic acid triggered by in situ prepared Pd/C catalyst for fuel cells, Catalysis Science & Technology, 5 (2015) 2581 - 2584 .
[22] K. Wang, B. Wang, J. Chang, L. Feng*, W. Xing, Formic acid electrooxidation catalyzed by Pd/SmOx-C hybrid catalyst in fuel cells, Electrochim. Acta, 150 (2014) 329-336.
[23] G. Li, L. Feng†*, J. Chang, B. Wickman, H. Grönbeck, C. Liu, W. Xing, Activity of Platinum/Carbon and Palladium/Carbon Catalysts Promoted by Ni2P in Direct Ethanol Fuel Cells, ChemSusChem, 7 (2014) 3374-3381.
[24] L. Feng, H. Vrubel, M. Bensimon, X. Hu, Easily-prepared dinickel phosphide (Ni2P) nanoparticles as an efficient and robust electrocatalyst for hydrogen evolution, Phys. Chem. Chem. Phys., 16 (2014) 5917-5921.
[25] J. Chang, S. Li, L. Feng*, X. Qin, G. Shao, Effect of carbon material on Pd catalyst for formic acid electrooxidation reaction, J. Power Sources, 266 (2014) 481-487.
[26] J. Chang, L. Feng†, C. Liu, W. Xing, X. Hu, An Effective Pd–Ni2P/C Anode Catalyst for Direct Formic Acid Fuel Cells, Angew. Chem. Int. Ed., 53 (2014) 122-126. (Co-first author)
[27] J. Chang, L. Feng†, C. Liu, W. Xing, X. Hu, Ni2P enhances the activity and durability of the Pt anode catalyst in direct methanol fuel cells, Energy Environ. Sci., 7 (2014) 1628-1632. (Co-first author)
[28] J. Yang, L. Feng, F. Si, Y. Zhang, C. Liu, W. Xing, K. Wang, Photoelectrochemical biofuel cells based on H2-mesoporphyrin IX or Zn-mesoporphyrin IX sensitizer on titanium dioxide film electrode, J. Power Sources, 222 (2013) 344-350.
[29] L. Yan, J. Liao, L. Feng, X. Zhao, L. Liang, W. Xing, C. Liu, Developing and performance measurements for a novel miniaturized electrochemical methanol sensor, J. Electroanal. Chem., 688 (2013) 49-52.
[30] J. Chang, X. Sun, L. Feng, W. Xing, X. Qin, G. Shao, Effect of nitrogen-doped acetylene carbon black supported Pd nanocatalyst on formic acid electrooxidation, J. Power Sources, 239 (2013) 94-102.
[31] S. Yao, L. Feng, X. Zhao, C. Liu, W. Xing, Pt/C catalysts with narrow size distribution prepared by colloidal-precipitation method for methanol electrooxidation, J. Power Sources, 217 (2012) 280-286.
[32] J. Yang, K. Wang, L. Liang, L. Feng, Y. Zhang, B. Sun, W. Xing, A hybrid photoelectrochemical biofuel cell based on the photosensitization of a chlorophyll derivative on TiO2 film, Catal. Commun., 20 (2012) 76-79.
[33] K. Wang, J. Yang, L. Feng, Y. Zhang, L. Liang, W. Xing, C. Liu, Photoelectrochemical biofuel cell using porphyrin-sensitized nanocrystalline titanium dioxide mesoporous film as photoanode, Biosens. Bioelectron., 32 (2012) 177-182.
[34] L. Feng, S. Yao, X. Zhao, L. Yan, C. Liu, W. Xing, Electrocatalytic Properties of Pd/C Catalyst for Formic Acid Electrooxidation Promoted by Europium Oxide, J. Power Sources, 197 (2012) 38-43.
[35] L. Feng, J. Yang, Y. Hu, J. Zhu, C. Liu, W. Xing, Electrocatalytic properties of PdCeOx/C anodic catalyst for formic acid electrooxidation, Int. J. Hydrogen Energy, 37 (2012) 4812-4818.
[36] L. Feng, X. Sun, C. Liu, W. Xing, Posioning effect diminished on Novel PdHoOx/C catalyst for the electrooxidation of formic acid, Chem. Commun., 48 (2012) 419-421.
[37] L. Feng, Q. Lv, X. Sun, S. Yao, C. Liu, W. Xing, Enhanced activity of molybdovanadophosphoric acid modified Pt electrode for the electrooxidation of methanol, J. Electroanal. Chem., 664 (2012) 14-19.
[38] L. Feng, W. Cai, C. Li, J. Zhang, C. Liu, W. Xing, Fabrication and performance evaluation for a novel small planar passive direct methanol fuel cell stack, Fuel, 94 (2012) 401-408.
[39] J. Zhang, L. Feng, W. Cai, C. Liu, W. Xing, The function of hydrophobic cathodic backing layers for high energy passive direct methanol fuel cell, J. Power Sources, 196 (2011) 9510-9515.
[40] L. Feng, X. Zhao, J. Yang, W. Xing, C. Liu, Electrocatalytic activity of Pt/C catalysts for methanol electrooxidation promoted by molybdovanadophosphoric acid, Catal. Commun., 14 (2011) 10-14.
[41] L. Feng, J. Zhang, W. Cai, L. Liang, W. Xing, C. Liu, Single passive direct methanol fuel cell supplied with pure methanol, J. Power Sources, 196 (2011) 2750-2753.
[42] L. Feng, L. Yan, Z. Cui, C. Liu, W. Xing, High activity of Pd-WO3/C catalyst as anodic catalyst for direct formic acid fuel cell, J. Power Sources, 196 (2011) 2469-2474.
[43] L. Feng, F. Si, S. Yao, W. Cai, W. Xing, C. Liu, Effect of deposition sequences on electrocatalytic properties of PtPd/C catalysts for formic acid electrooxidation, Catal. Commun., 12 (2011) 772-775.
[44] L. Feng, Z. Cui, L. Yan, W. Xing, C. Liu, The enhancement effect of MoOx on Pd/C catalyst for the electrooxidation of formic acid, Electrochim. Acta, 56 (2011) 2051-2056.
[45] Z. Cui, L. Feng, C. Liu, W. Xing, Pt nanoparticles supported on WO3/C hybrid materials and their electrocatalytic activity for methanol electro-oxidation, J. Power Sources, 196 (2011) 2621-2626.
[46] W. Cai, S. Li, L. Yan, L. Feng, J. Zhang, L. Liang, W. Xing, C. Liu, Design and simulation of a liquid electrolyte passive direct methanol fuel cell with low methanol crossover, J. Power Sources, 196 (2011) 7616-7626.
[47] W. Cai, S. Li, L. Feng, J. Zhang, D. Song, W. Xing, C. Liu, Transient behavior analysis of a new designed passive direct methanol fuel cell fed with highly concentrated methanol, J. Power Sources, 196 (2011) 3781-3789.

Conference Proceedings

1. 冯立纲, Phosphide as Efficient Catalyst Promoter in Direct Liquid Fuel Cells, 8th Annual Global Congress of Catalysis-2017, 2017.10.20-2017.10.22 (会议论文)
2. 冯立纲,磷化钴在直接液体燃料电池阳极催化剂中的促进作用, 第32届全国化学与物理电源学术年会, 2017.10.28-2017.10.29
3. 冯立纲, 磷化物促进剂在燃料电池电催化中的应用第十九次全国电化学会议, 2017.12.1-2017.12.4 (会议论文),
4. Ligang Feng, Jing Zhang, Liang Liang, Wei Xing, Changpeng Liu,Self-breathing DMFC employing pure methanol as fuel, The 15th National Conference on Electrochemistry,Changchun, Dec, 2009.
5. Ligang Feng, Zhiming Cui, Wei Xing, Changpeng Liu, High activity of PdMoOx/C for formic acid oxidation. The 13th National Conference on Electrochemistry,Changchun, Dec, 2009
6. Jing Zhang, Ligang Feng, Changpeng Liu, Wei Xing, Study for the MEA structure and properties for Self-breathing DMFC. The 15th National Conference on Electrochemistry,Changchun, Dec, 2009.
7. Liang Ma, Xiaogang Wang, Ligang Feng, Jing Zhang, Liang Liang, Jianhui Liao, Changpeng Liu, Wei Xing. Improving the Performance of Air-breathing Direct Methanol Fuel Cell. The 60th Annual Meeting of the International Society of Electrochemistry, August 2009, Beijing, China.
8. Ligang Feng, Weiwei Cai, Ligang Liang, Changpeng Liu, Wei Xing, Application of PtPd catalysts in direct formic acid fuel cell. The 16th National Conference on Electrochemistry,Chongqing, Oct, 2011.

Book chapter:
Liang Ma, Yunjie Huang, Ligang Feng, Wei Xing. “Fabrication and Optimization of DMFC Catalyst Layers and Membrane Electrode Assemblies”. In: Electrocatalysis of Direct Methanol Fuel Cells: From Fundamentals to Applications. Jiujun Zhang and Hansan Liu Editors. Wiley-VCH, 2009.
Ligang Feng, Xiujuan Sun, Shikui Yao, Changpeng Liu, Wei Xing, Jiujun Zhang. ‘Electrocatalysts and catalyst layers for oxygen reduction reaction’ in: Rotating electrode methods and oxygen reduction electrocatalysts. W. Xing, G. Yin and J. Zhang Editors, 2014, Elsevier
 




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