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章俊良 教授
上海交通大学“致远”讲席教授,机械与动力工程学院燃料电池研究所所长、致远学院常务副院长,国家特聘专家、上海市“东方学者”特聘教授。曾在美国Brookhaven国家实验室、通用汽车公司、上海交大从事燃料电池研发二十余年,2012年回到上海交通大学任教授。主要从事界面电化学、电催化、纳米材料、燃料电池、电化学能源系统中的传热传质研究。研究成果发表在Science、Angew. Chem. Int. Ed.等期刊共计150余篇,累计他引1.3万余次。撰写中英文专著两部,《燃料电池——原理・关键材料和技术》和《Low Platinum Fuel Cell Technologies》。申请美国及国际专利20余项,中国专利50余项。担任Fuel Cells、物理化学学报、Frontiers in Energy期刊编委,上海市电化学能源器件工程技术研究中心副主任,中国燃料电池汽车产业联盟理事。获2020年上海市技术发明奖一等奖。

教育背景

  • 2002年-2005年,美国Brookhaven 国家实验室,材料科学部/化学部,电化学中心,博士论文研究
  • 2000年-2005年,美国纽约州立大学,机械工程系,研究生/博士
  • 1996年-1997年,日本群马大学,机械工程系,访问学生
  • 1994年-1997年,上海交通大学,动力工程系,研究生/硕士
  • 1990年-1994年,上海交通大学,能源工程系,本科/学士

任职经历

  • 2012年-至今 上海交通大学机械与动力工程学院副院长(2015-),燃料电池研究所所长,国家特聘专家
  • 2009年-2011年 美国通用汽车公司燃料电池研发中心,高级研究员/课题组长
  • 2007年-2009年 美国通用汽车公司燃料电池研发中心,研究科学家
  • 2005年-2007年 美国能源部Brookhaven国家实验室电化学中心,博士后副研究员
  • 2002年-2005年 美国能源部Brookhaven国家实验室电化学中心,助研
  • 2000年-2002年 美国纽约州立大学,机械工程系,助教
  • 1996年-1997年 日本群马大学,机械工程系,助研

研究特色与专长为方向

       低铂高性能燃料电池膜电极设计、制备及测试技术,燃料电池低铂、超低铂电催化剂合成及生产技术,燃料电池电催化机理研究,以及燃料电池电堆设计、组装和测试。

主要学术创见

  1. 高性能低铂膜电极关键制备技术:成功开发了基于新型低铂合金催化剂的膜电极关键制备工艺。其次,成功开发了基于自主研发Pt3Co/C合金催化剂的车用大面积膜电极关键制备工艺,在车用燃料电池测试条件下,1200 mA cm-2时电压达到0.65 V以上,达到国际先进水平,目前正与上汽集团合作开发下一代汽车用燃料电池关键技术。
  2. 开发出了Pt-M混合单原子层电催化剂及其膜电极:在以上研究结果的基础上,进一步对Pt原子单层本身的成分加以调节,掺杂另一种金属,以形成Pt-M单层,提高Pt 的催化活性。结果发现,当另一种金属M对O或OH 的吸附比Pt更强时,Pt-M的氧还原催化活性比Pt更高。据此,提出-OH 键相互排斥对催化活性提高的作用机理,并成功合成一系列Pt-M混合单原子层催化剂,上可降低燃料电池Pt的用量达80%。相关成果以第一作者发表于J. Am. Chem. Soc.上。开发出Pt原子单层催化剂的膜电极技术,该膜电极实验室测试可达到车用燃料电池的成本及寿命要求。
  3. 发现了Au可以提高Pt 催化剂的稳定性的现象:通过欠电位沉积Cu以及随后的Au-Cu氧化还原置换方法,把Au原子簇(<1nm)镀在Pt纳米颗粒的缺陷表面,发现了Au可以对Pt起到稳定作用。在模拟燃料电池工况的旋转环盘电极的测试试验中,这种Au/Pt特殊组合催化剂在不降低铂的氧还原电催化活性的基础上,可以满足燃料电池车用工况的寿命要求。该研究结果以第一作者发表在Science上,为提高车用燃料电池寿命提供了新的方向。
  4. 揭示了Pt表面氧还原电催化反应机理:利用欠电位电化学沉积方法,合成以各种贵金属为基底的Pt原子单层催化剂,并研究这些Pt表面上的氧还原反应机理。研究表明,在Pt表面的氧还原反应速率主要由两个因素控制,其一是O-O 分子键断裂反应的活化能,其二是O-H键形成反应的活化能,而氧还原反应速率受限于这二者较慢的一步;对于优良的催化剂,这二者之间趋于平衡。该成果为开发新型低铂/超低铂催化剂及膜电极提供了理论依据。
  5. 揭示了制约超低铂膜电极性能提高的瓶颈及其应对策略:对超低铂膜电极催化层动力学进行了实验及理论研究,发现局域传质阻力是制约超低铂膜电极性能的关键因素,提出增加催化层活性比表面积是提高超低铂膜电极大电流区域性能的可行方案,并指出Pt单层催化剂是解决超低铂膜电极设计难题的有效方法。相关成果正准备发表。

代表性科研项目

  • 2021-2025,国家重点研发计划“氢能技术”专项“电站用高效长寿命膜电极技术”------负责人
  • 2016-2021,国家重点研发计划课题“新型低铂催化剂的研究与开发” ------负责人
  • 2016-2020,国家自然科学基金重点项目“燃料电池超低铂阴极的结构设计及动力学和传质机理研究”------负责人
  • 2015-2017,国家科技支撑计划项目“膜电极组件及关键材料技术研究-催化剂开发” ------负责人
  • 2015-2017,国际合作创新研究专项“基于介孔碳的聚阴离子型锂离子电池正极复合纳米材料研究” ------负责人
  • 2014-2017,国家自然科学基金面上项目“几何效应与电子效应对Pt-M/C催化剂氧还原比表面活性衰减的作用机理” ------负责人
  • 2014-2017,上海市科委“车用燃料电池高效膜电极技术研究与开发” ------负责人
  • 2014-2016,教育部科研项目“Pt核壳/合金单晶催化剂的制备及相关基础科学问题研究” ------负责人
  • 2013 -2016,国家863计划项目“低铂高性能车用燃料电池电堆技术” ------负责人
  • 2013-2015,国家高技术研究发展计划(863计划)“低铂高性能车用燃料电池电堆技术” ------负责人
  • 2012 -2014,上海市科学技术委员会项目“电堆故障机理及保护技术研究” ------负责人
  • 2012-2014,上海市东方学者特聘教授人才计划项目“氧还原催化剂”------负责人 

代表性论文专著

  1. M.T. Anwar, X.H. Yan, M.R. Asghar, N. Husnain, S.Y. Shen, L.X. Luo, J.L. Zhang, Recent Advances in Hybrid Support Material for Pt-based Electrocatalysts of Proton Exchange Membrane Fuel Cells, International Journal of Energy Research, 2018, in press.
  2. S.Y. Shen, Y. Zhang, G.H. Wei, W.S. Zhang, X.H. Yan, G.F. Xia, A.M. Wu, C.C. Ke, J.L. Zhang, Li2FeSiO4/C hollow nanospheres as cathode materials for lithium-ion Batteries, Nano Research, 2018, in press.
  3. S.Y. Shen, A.M. Wu, G.F. Xia, G.H. Wei, X.H. Yan, Y. Zhang, F.J. Zhu, J.W. Yin, J.L. Zhang, Facile preparation of unique three-dimensional (3D) α-MnO 2/MWCNTs macroporous hybrid as the high-performance cathode of rechargeable Li-O 2 batteries, Nano Research, 2018, in press.
  4. S.Y. Shen, F. Li, L.T. Zhao, C.H. Fu, G.H. Wei, L.J. Yang, J.L. Zhang, An Organic Solvent System-Assisted Electrodeposition of Highly Active Pt for the Oxygen Reduction Reaction, Journal of the Electrochemical Society, 2018, 165(15), J3392-J3394.
  5. A.M. Wu, S.Y. Shen, X.H. Yan, G.F. Xia, Y. Zhang, F.J. Zhu, J.L. Zhang, CxNy particles@ N-doped porous graphene: a novel cathode catalyst with a remarkable cyclability for Li-O2 batteries. Nanoscale, 2018, 10, 12763-12770.
  6. S.Y. Shen, Y.G. Guo, G. H. Wei, L.X. Luo, F. Li, L. Li, G.F. Xia, J.L. Zhang, An exploration of Au submonolayer decorated Pd7Ir nanoparticles as highly active electrocatalyst for ethanol oxidation reaction in alkaline media, Catalysis Science & Technology, 2018, 8, 3465-3468.
  7. S.Y. Shen, G.Y. Guo, G.H. Wei, L.X. Luo, F. Li, J.L. Zhang, A perspective on the promoting effect of Ir and Au on Pd toward the ethanol oxidation reaction in alkaline media. Frontiers in Energy, 2018, 12(4): 501-508.
  8. R.X. Tian, S.Y. Shen, F.J. Zhu, L.X. Luo, X.H. Yan, G.H. Wei, J.L. Zhang, Sandwich-structured Icosahedral PtNi Alloy Nanocrystalline Electrocatalyst: from the Growth Mechanism to its Oxygen Reduction Activity, ChemSusChem, 2018, 11(6), 1015-1019.
  9. Y.Zhang, W.S. Zhang, S.Y. Shen, X.H. Yan, A.M. Wu, J.L. Zhang, Hollow porous bowl-shaped lithium-rich cathode materials for lithium-ion batteries with exceptional rate capability and stability, Journal of Power Sources, 2018, 380, 164-173.
  10. M.R. Asghar, Y. Zhang, A.M. Wu, X.H. Yan, S.Y. Shen, J.L. Zhang, Preparation of microporous Cellulose/PVDF-HFP membrane for lithium ion batteries by phase inversion method. Journal of Power Sources, 2018, 379, 197-205.
  11. S.Y. Shen, F. Li, L.X. Luo, Y.G. Guo, X.H. Yan, C.C. Ke, J.L. Zhang, DMF-Coordination Assisted Electrodeposition of Highly Active PtCo Alloy Catalysts for the Oxygen Reduction Reaction, Journal of The Electrochemical Society, 2018, 165(2), D43-D49.
  12. S.Y. Shen, Y.G. Guo, L.X. Luo, F.Li, L.Li, G.H. Wei, J.W. Yin, C.C. Ke, J.L. Zhang, Comprehensive Analysis on the Highly Active and Stable PdAu/C Electrocatalyst for Ethanol Oxidation Reaction in Alkaline Media, The Journal of Physical Chemistry C, 2018, 122 (3), 1604–1611.
  13. M.T. Anwar, X.H. Yan, S.Y. Shen, N.Husnain, F.J. Zhu, L.X. Luo, J.L. Zhang, Enhanced durability of Pt electrocatalyst with tantalum doped titania as catalyst support, International Journal of Hydrogen Energy, 2017, 42(52), 30750-30759.
  14. C. Wang, X.J. Cheng, J.B. Lu, S.Y. Shen, X.H. Yan, J.W. Yin, G.H. Wei and J.L. Zhang, The experimental measurement of local and bulk oxygen transport resistances in the catalyst layer of proton exchange membrane fuel cells, The Journal of Physical Chemistry Letters, 2017, 8(23), 5848–5852.
  15. Y. Zhang, W.S. Zhang; S.Y. Shen, X.H. Yan, A.M. Wu, R.F. Wu and J.L. Zhang, An ingenious design of lamellar Li1.2Mn0.54Ni0.13Co0.13O2 hollow nanosphere cathode for advanced lithium-ion batteries, Electrochimica Acta, 2017, 256, 316-324.
  16. C. Wang, Q.L. Zhang, S.Y. Shen, X.H. Yan, F.J. Zhu, X.J. Cheng and J.L. Zhang, The respective effect of under-rib convection and pressure drop of flow fields on the performance of PEM fuel cells, Scientific Reports, 2017, 7, 43447.
  17. C. Wang, Q.L. Zhang, J.B. Lu, S.Y. Shen, X.H. Yan, F.J. Zhu, X.J. Cheng, and J.L. Zhang, Effect of height/width-tapered flow fields on the cell performance of polymer electrolyte membrane fuel cells, International Journal of Hydrogen Energy, 2017, 42(36), 23107-23117.
  18. S.Y. Shen, X.J. Cheng, C. Wang, X.H. Yan, C.C. Ke, J.W. Yin and J.L. Zhang, Exploration of significant influences of the operating conditions on the local O2 transport in proton exchange membrane fuel cells (PEMFCs), Physical Chemistry Chemical Physics, 2017, 19(38), 26221-26229.
  19. L.X. Luo, F.J. Zhu, R.X. Tian, L. Li, S.Y. Shen, X.H. Yan and J.L. Zhang, Composition-graded PdxNi1-x nanospheres with Pt monolayer shells as high-performance electrocatalysts for oxygen reduction reaction, ACS Catalysis, 2017, 7 (8), 5420-5430.
  20. W.K. Li.; Q.L. Zhang, C. Wang, X.H. Yan, S.Y. Shen, G.F. Xia, F.J. Zhu and J.L. Zhang, Experimental and numerical analysis of a three-dimensional flow field for PEMFCs, Applied Energy, 2017, 195, 278-288.
  21. A.M. Wu, G.F. Xia, S.Y. Shen, J.W. Yin, Y.Mao, Q.Y. Bai, J.Y. Xie and J.L. Zhang, Recent progress in non-aqueous lithium-air batteries, Acta Physico-Chimica Sinica, 2016, 32 (8), 1866-1879.
  22. Y. Zhang, W.S. Zhang, S.Y. Shen, X.H. Yan, R.F. Wu, A.M. Wu, J.L. Zhang, A sacrificial template strategy toward hollow LiNi1/3Co1/3Mn1/3O2 nanospheres cathode for advanced lithium-ion batteries. ACS Omega, 2017, 2, 7593-7599
  23. R.F. Wu, S.Y. Shen, G.F. Xia, F.J. Zhu, C. Lastoskie and J.L. Zhang, Soft-templated self-assembly of mesoporous anatase TiO2/Carbon composite nanospheres for high-performance lithium ion batteries, ACS Applied Materials & Interfaces, 2016, 8 (31), 19968-19978.
  24. L.X. Luo, S.Y. Shen, F.J. Zhu and J.L. Zhang, Formic acid oxidation by pd monolayers on Pt3Ni nanocubes, Acta Physico-Chimica Sinica, 2016, 32(1),337-342.
  25. Y.Q. Meng, C. Wang, Q.L. Zhang, S.Y. Shen, F.J. Zhu, H. Yang and J.L. Zhang, The effects of cathode platinum loading and operating backpressure on PEMFC performance, Acta Physico-Chimica Sinica, 2016, 32 (6), 1460-1466.
  26. Z. Cui, C. Wang, S.Y. Shen, F.J. Jiang and J.L. Zhang, Pt/C modified proton exchange membrane for improved fuel cell performance, Journal of Electrochemistry, 2015, (3), 273-278.
  27. F.J. Zhu, J.Kim, K.C. Tsao, J.L. Zhang and H. Yang, Recent development in the preparation of nanoparticles as fuel cell catalysts, Current Opinion in Chemical Engineering, 2015, 8, 89-97.
  28. G.F. Xia, S.Y. Shen, F.J. Zhu, J.Y. Xie, Y.F. Hu, K. Zhu and J.L. Zhang, Effect of oxygen-containing functional groups of carbon materials on the performance of Li–O2 batteries, Electrochemistry Communications, 2015, 60, 26-29.
  29. R.F. Wu, G.F. Xia, S.Y. Shen, F.J. Zhu, F.J. Jiang and J.L. Zhang, In-situ growth of LiFePO4 nanocrystals on interconnected carbon nanotubes/mesoporous carbon nanosheets for high-performance lithium ion batteries, Electrochimica Acta, 2015, 153, 334-342.
  30. F.J. Jiang, L. Yin, Q.C. Yu, C.Y. Zhong and J.L Zhang, Bacterial cellulose nanofibrous membrane as thermal stable separator for lithium-ion batteries, Journal of Power Sources, 2015, 279, 21-27.
  31. F.J. Jiang, L. Yin, Q.C. Yu, C.Y. Zhong, J.L Zhang, Bacterial cellulose nanofibrous membrane as thermal stable separator for lithium-ion batteries, Journal of Power Sources, 2015, 279,21-27.
  32. Q.C. Yu, Y. Nie, J.L Zhang, F.J. Jiang, Single-ion polyelectrolyte/ mesoporous hollow-silica spheres, composite electrolyte membranes for lithium-ion batteries, Electrochimica Acta, 2015, 182, 97-304.
  33. K.H. Su, X.Y. Yao, S. Sui, W.Z. Wei, F.J. Jiang, S.F. Du, Matrix material study for in situ grown Pt nanowire electrocatalyst layer in proton exchange membrane fuel cells (PEMFCs), Fuel Cells, 2015,15,449-455.
  34. R.F. Wu, G.F. Xia, S.Y. Shen, F.J. Zhu, F.J. Jiang and J.L. Zhang, Soft-templated LiFePO4/mesoporous carbon nanosheets (LFP/meso-CNSs) nanocomposite as the cathode material of lithium ion batteries, RSC Advances, 2014, 4 (41), 21325-21331.
  35. F.J. Jiang, A.Kaltbeitzel, J.L. Zhang and W.H. Meyer, Nano-spheres stabilized poly(vinyl phosphonic acid) as proton conducting membranes for PEMFCs, International Journal of Hydrogen Energy, 2014, 39 (21), 11157-11164.
  36. C.Y. Hu, D.P. Yang, F.J. Zhu, F.J. Jiang, S.Y. Shen and J.L. Zhang, Enzyme-labeled Pt@BSA nanocomposite as a facile electrochemical biosensing interface for sensitive glucose determination, ACS Applied Materials & Interfaces, 2014, 6 (6), 4170-4178.
  37. G.F. Xia, N. Li, D.Y. Li, R.Q. Liu, C. Wang, Q. Li, X.J. Lü, J.S. Spendelow, J.L. Zhang and G. Wu, Graphene/Fe2O3/SnO2 ternary nanocomposites as a high-performance anode for lithium ion batteries, ACS Appl Mater Interfaces, 2013, 5 (17), 8607-8614.
  38. A.G. Kong, B.Dong, X.F. Zhu, Y.Y. Kong, J.L. Zhang and Y.K. Shan, Ordered mesoporous Fe-porphyrin-like architectures as excellent cathode materials for the oxygen reduction reaction in both alkaline and acidic media, Chemistry -A European Journal, 2013, 19 (48), 16170-16175.
  39. F.J. Jiang, H.B. Li, Z.G. Di, S. Sui, Q.C. Yu and J.L. Zhang, Silica ultrafiltration membrane with tunable pore size for macromolecule separation, Journal of Membrane Science, 2013, 441 (441), 25-30.
  40. F. Jiang, W.H. Meyer, J.L. Zhang, Dense poly(4-vinyl pyridine) brushes grafting from silica nanoparticles via atom transfer radical polymerization, Colloids and Surfaces A, 2013, 436,302-308.
  41. C.Y. Hu, D.P. Yang, Z.Y. Wang, L.L. Yu, J.L. Zhang and N.Q. Jia, Improved EIS performance of an electrochemical cytosensor using three-dimensional architecture Au@BSA as sensing layer. Analytical Chemistry, 2013, 85 (10), 5200-5206.
  42. Z.Q. Yu, J.L. Zhang, Z.Y. Liu, J.M. Ziegelbauer, H.L. Xin, I. Dutta, D.A. Muller, F. T. Wagner, Comparison between dealloyed PtCo3 and PtCu3 cathode catalysts for proton exchange membrane fuel cells, Journal of Physical Chemistry C, 2012, 116 (37), 19877-19885.
  43. J.B. Wu, J.L. Zhang, Z.M. Peng, S.C. Yang, F.T. Wagner and H. Yang, Truncated octahedral Pt(3)Ni oxygen reduction reaction electrocatalysts, Journal of the American Chemical Society, 2010, 132 (14), 4984-4985.
  44. Z.Y. Liu, J.L. Zhang, P.T. Yu, J.X. Zhang, R. Makharia, K.L. More and E.A. Stach, Transmission electron microscopy observation of corrosion behaviors of platinized carbon blacks under thermal and electrochemical conditions, Journal of the Electrochemical Society, 2010, 157 (6), B906-B913.
  45. P.A. Ferrin, S.K. Kandoi, J.L. Zhang, R.R. Adzic and M. Mavrikakis, Molecular and atomic hydrogen interactions with Au−Ir near-surface alloys, Journal of Physical Chemistry C, 2009, 113 (4), 1411-1417.
  46. J.L. Zhang, K. Sasaki, E. Sutter and R.R. Adzic, Stabilization of platinum oxygen-reduction electrocatalysts using gold clusters, Science, 2007, 315 (5809), 220-222.
  47. J.X. Wang, J.L. Zhang and R.R. Adzic, Double-trap kinetic equation for the oxygen reduction reaction on Pt(111) in acidic media, Journal of Physical Chemistry A, 2007, 111 (49), 12702-12710.
  48. F.H. B. Lima, J.L. Zhang, M.H. Shao, K. Sasaki, M.B. Vukmirovic, E.A. Ticianelli and R.R. Adzic, Catalytic activity−d-band center correlation for the O2 reduction reaction on platinum in alkaline solutions, Journal of Physical Chemistry C, 2007, 111 (1), 404-410.
  49. J.L. Zhang, M.B. Vukmirovic, Y.Xu, M. Mavrikakis and R.R. Adzic, Controlling the catalytic activity of platinum-monolayer electrocatalysts for oxygen reduction with different substrates. Angewandte Chemie, 2005, 44 (14), 2132-2135.
  50. J.L. Zhang, M.B. Vukmirovic, K. Sasaki, A.U. Nilekar, M. Mavrikakis and R.R. Adzic, Mixed-metal pt monolayer electrocatalysts for enhanced oxygen reduction kinetics, Journal of the American Chemical Society, 2005, 127 (36), 12480-12481.
  51. J.L. Zhang, F.H. B. Lima, M.H. Shao, K. Sasaki, J.X. Wang, J. Hanson, R.R. Adzic, Platinum monolayer on nonnoble metal-noble metal core-shell nanoparticle electrocatalysts for O2 reduction, Journal of Physical Chemistry B, 2005, 109 (48), 22701-22704.
  52. J.L. Zhang, Y.Mo, M.B. Vukmirovic, R.Klie, K. Sasaki and R.R. Adzic, Platinum monolayer electrocatalysts for O2 reduction:  Pt monolayer on Pd(111) and on carbon-supported Pd nanoparticles, Journal of Physical Chemistry B, 2004, 108 (30), 10955-10964.

专利申请与授权情况

国内授权专利:

  1. 章俊良,朱凤鹃,沈水云,夏国锋,吴若飞,一种碳载纳米铂合金催化剂的制备方法,2017/07, 中国发明专利,ZL201410820939.2。
  2. 章俊良,张士林,王树华,蒋峰景,一种SiO2掺杂全氟磺酸质子交换膜的制备方法,2017/07, 中国发明专利,ZL201310537841.1。
  3. 章俊良,朱凤鹃,夏国锋,沈水云,胡宸溢,一种碳载纳米铂合金催化剂的制备方法,2017/05, 中国发明专利,ZL201410820921.2。
  4. 章俊良,夏国锋,蒋峰景,吴若飞,朱凤鹃,简易扣式锂空气电池测试装置,2016/09, 中国发明专利,ZL201310190283.6。
  5. 蒋峰景,张士林,王树华,章俊良,一种有机/无机复合中高温质子导电膜,2016/09, 中国发明专利,ZL201310029986.0。
  6. 章俊良,张士林,王树华,蒋峰景,一种高吸水性质子交换膜的制备方法,2016/05, 中国发明专利,ZL201410215865.X。
  7. 章俊良,王超,蒋峰景,崔智,朱凤娟,优化燃料电池排水性能的质子膜燃料电池流道,2016/05, 中国发明专利,ZL201410012652.7。
  8. 隋升,苏凯华,王曙中,章俊良,蒋峰景,一种焓轮增湿器的制造方法,2016/03, 中国发明专利,ZL201210559771.5。
  9. 章俊良,吴若飞,蒋峰景,夏国锋,朱凤鹃,LiFexM1-xPO4/介孔碳复合材料及其制备方法,2015/12, 中国发明专利,ZL201310153728.3。
  10. 隋升,苏凯华,王曙中,章俊良,蒋峰景,用于燃料电池的膜增湿器,2015/07, 中国发明专利,ZL201210559773.4。
  11. 蒋峰景,吉喆,朱成玮,陈宣融,刘兴,黄子寅,章俊良,板式二氧化碳吸附装置,2015/04, 中国发明专利,ZL201420658882.6。
  12. 蒋峰景,王希尧,刘力恒,尹逸轩,王垚俣,章俊良,高效二氧化碳膜分离装置,2015/04, 中国发明专利,ZL201420656858.9。
  13. 蒋峰景,章俊良,于立强,宋星宇,刘启桐,顾习之,马鑫,复合型二氧化碳吸附剂,2014/12, 中国发明专利,ZL201310139754.0。
  14. 蒋峰景,钟春燕,章俊良,余晴春,钟宇光,一种细菌纤维素多孔薄膜及其制备方法,2014/08, 中国发明专利,ZL201410416648.7。
  15. 蒋峰景,章俊良,于立强,宋星宇,刘启桐,顾习之,马鑫,简易二氧化碳吸附装置,2013/11, 中国发明专利,ZL201320207019.4。
  16. 蒋峰景,章俊良,于立强,宋星宇,刘启桐,顾习之,马鑫,高效二氧化碳吸附装置,2013/09, 中国发明专利,ZL201320207082.8。

国际授权专利:

  1. J. L. Zhang, Z. Y. Liu, Z. Q. Yu, Graphite particle-supported Pt-shell/Ni-core nanoparticle electrocatalyst for oxygen reduction reaction, 2016/10, International patent (US, German, China), US9472811.
  2. R. C. Jiang, Z. Q. Yu, J. L. Zhang, Nanofiber supported catalysts as membrane additives for improved fuel cell durability, 2015/09, International patent (US, German, China), US9123932.
  3. R. R. Adzic, J. L. Zhang, Y. B. Mo, M. B. Vukmirovic, Platinum-coated non-noble metal-noble metal core-shell electrocatalysts, 2015/04, International patent (US, German, China), US9005331.
  4. J. L. Zhang, M. Dioguardi, F. T. Wagner, Method for membrane electrode assembly fabrication and membrane electrode assembly, 2015/01, US, US8940461.
  5. T. J. Fuller, M. R. Schoeneweiss, J. L. Zhang, Cobalt(II) tetramethoxyphenylporphyrin (CoTMPP) ionomer stabilization to prevent electrode degradation, 2014/05, International patent (US, German, China), US8735021.
  6. R. R. Adzic, J. L. Zhang, M. B. Vukmirovic, Electrocatalyst for oxygen reduction with reduced platinum oxidation and dissolution rates, 2012/11, US, US8308989.
  7. J. L. Zhang, S. S. Yan, F. T. Wagner, Method of treating nanoparticles using an intermittently processing electrochemical cell, 2012/07, International patent (US, German, China), US8231773.
  8. R. R. Adzic, J. L. Zhang, K. Sasaki, Method and electrochemical cell for synthesis and treatment of metal monolayer electrocatalysts metal, carbon, and oxide nanoparticles in batch, or in continuous fashion, 2012/03, US, US9017530.
  9. R. R. Adzic, J. L. Zhang, K. Sasaki, Y. B. Mo, M. B. Vukmirovic, Electrocatalyst for oxygen reduction with reduced platinum oxidation and dissolution rates, 2011/11, International patent (US, Canada, Europe, Japan, Russia, China), US8062552.
  10. J. L. Zhang, F. T. Wagner, Z. Y. Liu, M. K. Carpenter, Method for generating a shell of noble metal overlaid on a core of non-noble metal, and catalysts made thereby, 2011/11, International patent (US, German, China), US8058204.
  11. R. R. Adzic, J. L. Zhang, Electrocatalysts having gold monolayers on platinum nanoparticle cores, and uses thereof, 2010/04, International patent (US, Canada, Europe, Japan, Russia, China), US7704919.
  12. R. R. Adzic, J. L. Zhang, K. Sasaki, Y. B. Mo, M. B. Vukmirovic, Platinum- and platinum alloy-coated palladium and palladium alloy particles and uses thereof, 2010/04, International patent (US, Canada, Europe, Japan, Russia), US7691780. 

学术兼职

  • 2012年-至今  Electrocatalysis 期刊编委
  • 2012年-至今  Frontiers in Energy 期刊编委
  • 2015年-至今  物理化学学报 期刊编委
  • 2014年-至今  中国电化学专业委员会燃料电池分会副主席
  • 2015年-至今  上海市电化学能源器件工程技术研究中心副主任
  • 2014年-至今  中国燃料电池汽车产业联盟理事

荣誉奖励

  • 2011年 国家特聘专家
  • 2020年 上海市技术发明一等奖