2000 ― 2005    美國(guó)紐約州立大學(xué) 石溪分校，機(jī)械工程系，博士
1994 ― 1997    上海交通大學(xué)，內(nèi)燃機(jī)專業(yè)，碩士
1990 ― 1994    上海交通大學(xué)，熱能工程專業(yè)，學(xué)士

2023 - 至今 上海交通大學(xué)教務(wù)處，處長(zhǎng)
2018 - 2023 上海交通大學(xué)致遠(yuǎn)學(xué)院，常務(wù)副院長(zhǎng)
2014 - 2018 上海交通大學(xué)機(jī)械與動(dòng)力工程學(xué)院，副院長(zhǎng)
2012 - 至今 上海交通大學(xué)機(jī)動(dòng)學(xué)院燃料電池研究所，教授，所長(zhǎng)
2011 - 2012 上海交通大學(xué)機(jī)動(dòng)學(xué)院燃料電池研究所，教授，副所長(zhǎng)
2009 - 2011 美國(guó)通用汽車公司研發(fā)總部電化學(xué)能源研究中心，高級(jí)研究員，課題組長(zhǎng)
2007 - 2009 美國(guó)通用汽車公司研發(fā)總部電化學(xué)能源研究中心，研究科學(xué)家
2005 - 2007 美國(guó)能源部Brookhaven國(guó)家實(shí)驗(yàn)室化學(xué)部電化學(xué)組，博士后副研究員

界面電化學(xué)，電催化，納米材料
燃料電池技術(shù)，電解水制氫技術(shù)，低溫二氧化碳還原技術(shù)
電化學(xué)能源系統(tǒng)中的傳熱傳質(zhì)

2017 - 至今 Fuel Cells 期刊編委
2012 - 至今 Frontiers in Energy 期刊編委

在研項(xiàng)目：
2021 - 2025 重點(diǎn)研發(fā)計(jì)劃“氫能技術(shù)”重點(diǎn)專項(xiàng)“電站用高效長(zhǎng)壽命膜電極技術(shù)”，項(xiàng)目負(fù)責(zé)人
2022 – 2026 上海市市級(jí)重大專項(xiàng)“可再生合成燃料基礎(chǔ)理論與關(guān)鍵技術(shù)”項(xiàng)目二“高性能低溫CO2還原關(guān)鍵技術(shù)及電解池堆開發(fā)”，項(xiàng)目負(fù)責(zé)人
2024 – 2028 自然科學(xué)基金重大項(xiàng)目課題“高能效電制合成燃料電解堆和系統(tǒng)能量管理”，課題負(fù)責(zé)人

已結(jié)題項(xiàng)目：
2016 - 2021 科技部十三五重點(diǎn)研發(fā)計(jì)劃“新能源汽車”試點(diǎn)專項(xiàng)課題“新型低鉑催化劑的研究與開發(fā)” ，項(xiàng)目負(fù)責(zé)人
2016 - 2020 國(guó)家自然科學(xué)基金重點(diǎn)項(xiàng)目“燃料電池超低鉑陰極的結(jié)構(gòu)設(shè)計(jì)及動(dòng)力學(xué)和傳質(zhì)機(jī)理研究” ，項(xiàng)目負(fù)責(zé)人
2014 - 2017 國(guó)家自然科學(xué)基金面上項(xiàng)目“幾何效應(yīng)與電子效應(yīng)對(duì)Pt-M/C催化劑氧還原比表面活性衰減的作用機(jī)理”，項(xiàng)目負(fù)責(zé)人
2017 - 2019 某企業(yè)項(xiàng)目“大功率水冷燃料電池電堆關(guān)鍵技術(shù)開發(fā)”，項(xiàng)目負(fù)責(zé)人
2017 - 2018 某跨國(guó)企業(yè)“具有高質(zhì)量活性的Pd合金@Pt催化劑的開發(fā)”，項(xiàng)目負(fù)責(zé)人
2014 - 2017 上海市科委項(xiàng)目“車用燃料電池高效膜電極技術(shù)研究與開發(fā)”，項(xiàng)目負(fù)責(zé)人
2014 - 2016 教育部項(xiàng)目“Pt 核殼/合金單晶催化劑的制備及相關(guān)基礎(chǔ)科學(xué)問(wèn)題研究”，項(xiàng)目負(fù)責(zé)人
2013 - 2016 某企業(yè)項(xiàng)目“新型催化劑的膜電極工藝開發(fā)”，項(xiàng)目負(fù)責(zé)人
2013 - 2015 國(guó)家863計(jì)劃項(xiàng)目“低鉑高性能車用燃料電池電堆技術(shù)”，項(xiàng)目負(fù)責(zé)人
2012 - 2014 上海市科委項(xiàng)目“電堆故障機(jī)理及保護(hù)技術(shù)研究”，項(xiàng)目負(fù)責(zé)人

1. Yuan, S; Zhao, CF; Li, HY; Shen, SY; Yan, XH*; Zhang, JL*. Rational electrode design for low-cost proton exchange membrane water electrolyzers[J]. Cell Reports Physical Science, 2024, 5(3).101880
2. Wang, EP; Luo, LX*; Feng, Y; Wu, AM; Li, HY; Luo, XS; Guo, YG; Tan, ZH; Zhu, FJ; Yan, XH; Kang, Q; Zhuang, ZH; Yang, DH; Shen, SY*; Zhang, JL. Ultrafine ordered L12-Pt–Co–Mn ternary intermetallic nanoparticles as high-performance oxygen-reduction electrocatalysts for practical fuel cells[J]. Journal of Energy Chemistry, 2024, 93, 157-165
3. Cheng, M; Luo, LX; Feng, Y; Feng, QL; Yan, XH; Shen, SY; Guo, YG*; Zhang, JL*. Numerical studies on porous water transport plates applied in PEMFCs under pure oxygen condition[J]. Applied Energy, 2024, 362: 122903.
4. You, JB; Li, HY; Feng, Y; Cheng, XJ; Luo, LX; Yang, DH; Wei, GH; Shen, SY; Yan, XH*; Zhang, JL*. Insight into oxygen diffusion mechanism in ionomer film on catalyst surface with varying perfluorosulfonic acid and water contents[J]. Journal of Materials Chemistry A, 2024, 12(12), 7248-7256
5. Cheng, XJ; Zhou, JH; Luo, LX; Shen, SY; Zhang, JL*. Boosting Bulk Oxygen Transport with Accessible Electrode Nanostructure in Low Pt Loading PEMFCs[J]. Small, 2024: 2308563.
6. Xu, HH; Zheng, ZF; Hu, J; Li, HY; Cheng, XJ; Guo, YG; Luo, LX; Yin, JW; Yan, XH; Wu, R*; Shen, SY*; Zhang, JL. An improved agglomerate model with adsorption isotherm for oxygen transport in CCLs with low Pt loading[J]. International Journal of Heat and Mass Transfer, 2024, 222: 125173.
7. An, L; Cai, XY; Yang, F; You, JB; Yuan, S; Zhao, LT; Zhao, CF; Luo, LX; Yan, XH; Shen, SY*; Zhang, JL*. Reconstructed RuMnOx with enhanced performance in acidic water oxidation[J]. Applied Surface Science, 2024, 652: 159251.
8. Li, HY; You, JB; Cheng, XJ; Luo, LX; Yan, XH; Yin, JW; Shen, SY*; Zhang, JL*. Unraveling the Effects of Carbon Corrosion on Oxygen Transport Resistance in Low Pt Loading Proton Exchange Membrane Fuel Cells[J]. ACS Applied Materials & Interfaces, 2023, 16(1): 540-554.
9. Liu, L; Shadike, Z*; Cai, XY; Hong, MW; Gao, Y; Shen, SY; Zhang, JL*. Regulating the solvation structure of an acetonitrile-based electrolyte for Li/NMC811 batteries cycled at low temperature[J]. Journal of Materials Chemistry A, 2024, 12(12), 6947-6954
10. Luo, LX; Fu, CH; Tan, ZH; Luo, XS; Guo, YG; Cai, XY; Cheng, XJ; Yan, XH; Kang, Q; Zhuang, ZC; Yin, JW; Shen, SY*; Zhang, JL*. Altering the electronic structure and surface chemical environment of Pt {100} facets via synergizing with Ir species for enhanced oxygen-reduction activity and stability[J]. International Journal of Hydrogen Energy, 2024, 53: 483-489.
11. 趙路甜, 郭楊格, 羅柳軒, 閆曉暉, 沈水云*, 章俊良. 金屬納米晶體電催化劑的電化學(xué)合成: 原理, 應(yīng)用與挑戰(zhàn)[J]. 物理化學(xué)學(xué)報(bào), 2023, 40(7): 2306029.
12. Cai, XY; Zulipiya, Shadike*; Wang, N; Liu, L; Hu, EY*; Zhang, JL*. Oxygen redox chemistry: A new approach to high energy density world[J]. Next Materials, 2024, 2: 100086.
13. 吳釗穎, 羅夏爽, 羅柳軒, 郭楊格*, 沈水云*, 章俊良. 氫燃料電池陽(yáng)極抗一氧化碳毒化催化劑的研究進(jìn)展與展望[J]. 中國(guó)科學(xué): 技術(shù)科學(xué), 2023, 54(4): 567-583
14. Li, HY; You, JB; Feng, Y; Yan, XH; Yin, JW; Luo, LX; He, MM; Cheng, XJ*; Shen, SY*; Zhang, JL. Comprehensive understanding of oxygen transport at Gas/ionomer/electrocatalyst triple phase boundary in PEMFCs[J]. Chemical Engineering Journal, 2023, 478: 147454.
15. Cai, XY; Li, XD; You, JB; Yang, F; Zulipiya, Shadike; Qin, S; Luo, LX; Guo, YG; Yan, XH; Shen, SY*; Wei, GH*; Xu, ZC; Zhang, JL*. Lithium-mediated ammonia electrosynthesis with ether-based electrolytes[J]. Journal of the American Chemical Society, 2023, 145(47): 25716-25725.
16. Cheng, XJ; Wei, GH; Luo, LX; Yin, JW; Shen, SY*; Zhang, JL*. Application of Solid Catalysts with an Ionic Liquid Layer (SCILL) in PEMFCs: From Half-Cell to Full-Cell[J]. Electrochemical Energy Reviews, 2023, 6(1): 32.
17. Zhao, CF; Yuan, S; Cheng, XJ; An, L; Li, JZ; Shen, SY; Yin, JW; Yan, XH*; Zhang, JL*. Effect of perfluorosulfonic acid ionomer in anode catalyst layer on proton exchange membrane water electrolyzer performance[J]. Journal of Power Sources, 2023, 580: 233413.
18. Yuan, S; Zhao, CF; Mei, XH; Shen, SY; Wang, Q; Yan, XH*; Zhang, JL*. Bubble management in PEM water electrolysis via imprinting patterned grooves on catalyst layer[J]. International Journal of Heat and Mass Transfer, 2023, 212: 124249.
19. Yan, XH*; Liang, YW; Shen, SY; Zhang, JL*. Ordered Catalyst Layer Design for Proton Exchange Membrane Fuel Cells: Principle and Methods[M]//Flow Cells for Electrochemical Energy Systems: Fundamentals and Applications. Cham: Springer International Publishing, 2023: 1-19.
20. Luo, XS; Fu, CH; Shen, SY; Luo, LX*; Zhang, JL*. Free–templated synthesis of N–doped PtCu porous hollow nanospheres for efficient ethanol oxidation and oxygen reduction reactions[J]. Applied Catalysis B: Environmental, 2023, 330: 122602.
21. Wan, QQ; Zhu, G; Li, TH; Liu, YY; Ye, DH; Wang, A; Hou, JB; Peng, YT; Deng, CW*; Zhuang, XD; Zhang, JL; Ke, CC*. Is the higher current density, the better performance for CO2 electrochemical reduction reaction?[J]. Journal of Power Sources, 2023, 572: 233106.
22. Cai, XY; Zulipiya Shadike; Cai, XinY; Li, XD; Luo, LX; An, L; Yin, JW; Wei, GH; Yang, F; Shen, SY*; Zhang, JL*. Membrane electrode assembly design for lithium-mediated electrochemical nitrogen reduction[J]. Energy & Environmental Science, 2023, 16(7): 3063-3073.
23. Fu, CH; Thomas O'Carroll; Shen, SY; Luo, LX; Zhang, JL*; Xu, H*; Wu, G*. Metallic-Ir-based anode catalysts in PEM water electrolyzers: Achievements, challenges, and perspectives[J]. Current Opinion in Electrochemistry, 2023, 38: 101227.
24. Zhang, Y; Peng, YT; Wan, QQ; Ye, DH; Wang, A; Zhang, LH; Jiang, WX; Liu, YY; Li, J; Zhuang, XD; Zhang, JL; Ke, CC*. Fuel cell power source based on decaborane with high energy density and low crossover[J]. Materials Today Energy, 2023, 32: 101244.
25. Yuan, S; Zhao, CF; Mei, XH; Shen, SY; Wang, Q; Yan, XH*; Zhang, JL*. Bubble management in PEM water electrolysis via imprinting patterned grooves on catalyst layer[J]. International Journal of Heat and Mass Transfer, 2023, 212: 124249.
26. Sun, NN; Guo, YG*; Luo, LX; Cai, XY; Shen, SY*; Zhang, JL. Facile synthesis of CuCo-CoO composite electrocatalyst for nitrate reduction to ammonia with high activity, selectivity and stability[J]. Applied Surface Science, 2023, 624: 157118.
27. Hu, CY; Wei, GH; Zhu, FJ; Wu, AM; Luo, LX; Shen, SY; Jia, NQ*; Zhang, JL*. Label-free electrochemical biosensing architecture based on a protein-decorated Pt@ BSA nanocomposite for sensitive immunoassay of pathogenic Escherichia coli O157: H7[J]. ACS Sustainable Chemistry & Engineering, 2023, 11(20): 7894-7907.
28. You, JB; Zheng, ZF; Cheng, XJ; Li, HY; Fu, CH; Luo, LX; Wei, GH; Shen, SY; Yan, XH*; Zhang, JL*. Insight into oxygen transport in solid and high-surface-area carbon supports of proton exchange membrane fuel cells[J]. ACS Applied Materials & Interfaces, 2023, 15(17): 21457-21466.
29. Yuan, S; Zhao, CF; Cai, XY; An, L; Shen, SY; Yan, XH*; Zhang, JL*. Bubble evolution and transport in PEM water electrolysis: Mechanism, impact, and management[J]. Progress in Energy and Combustion Science, 2023, 96: 101075.
30. Xu, ZL; Yuan, S; An, L; Shen, SY; Xu, Q; Yan, XH*; Zhang, JL*. Effect of Substrate Surface Charges on Proton Conduction of Ultrathin Nafion Films[J]. ACS Applied Materials & Interfaces, 2023, 15(8): 10735-10743.
31. Luo, LX; Fu, CH; Guo, YG; Cai, XY; Luo, XS; Tan, ZH; Xue, R; Cheng, XJ; Shen, SY*; Zhang, JL*. Ultrafine Core@ Shell Cu1Au1@ Cu1Pd3 nanodots synergized with 3D porous N-doped graphene nanosheets as a high-performance multifunctional electrocatalyst[J]. ACS nano, 2023, 17(3): 2992-3006.
32. Chen, YD; Tan, ZH; Wang, EP; Yin, JW; Luo, LX*; Shen, SY*; Zhang, JL. Progress and prospects of dealloying methods for energy-conversion electrocatalysis[J]. Dalton Transactions, 2023, 52: 7370-7382
33. Zhao, CF; Yuan, S; Cheng, XJ; Zheng, ZF; Liu, J; Yin, JW; Shen, SY; Yan, XH*; Zhang, JL*. The effect of catalyst layer design on catalyst utilization in PEMFC studied via stochastic reconstruction method[J]. Energy and AI, 2023, 13: 100245.
34. Li, HY; You, JB; Cheng, XJ*; Yan, XH; Shen, SY; Zhang, JL*. New insight into the effect of Co2+ contamination on local oxygen transport in PEMFCs[J]. Chemical Engineering Journal, 2023, 453: 139945.
35. Li, J; Yang, F*; Du, YZ; Jiang, M; Cai, XY; Hu, QD; Zhang, JL*. The critical role of A, B-site cations and oxygen vacancies on the OER electrocatalytic performances of Bi0.15Sr0.85Co1-xFexO3-δ (0.2 ≤ x ≤ 1) perovskites in alkaline media[J]. Chemical Engineering Journal, 2023, 451: 138646.
36. Luo, LX; Tan, ZH; Fu, CH; Xue, R; Cheng, XJ; Bi, TZ; Zhao, LT; Guo, YG; Cai, XY; Yin, JW; Shen, SY*; Zhang, JL. Shape-controlled synthesis of Pd nanotetrahedrons with Pt-doped surfaces for highly efficient electrocatalytic oxygen reduction and formic acid oxidation[J]. Chemical Engineering Journal, 2023, 451: 138786.
37. You, JB; Cheng, XJ; Li, HY; Yin, JW; Yan, XH; Wei, GH*; Shen, SY; Zhang, JL. Innovative insight into O2/N2 permeation behavior through an ionomer film in cathode catalyst layers of polymer electrolyte membrane fuel cells[J]. The Journal of Physical Chemistry Letters, 2022, 13(49): 11444-11453.
38. Li, L; Fu, CH; Shen, SY; Jiang, FL; Wei, GH; Zhang, JL*. Influence of Fe on electrocatalytic activity of iron-nitrogen-doped carbon materials toward oxygen reduction reaction[J]. Frontiers in Energy, 2022, 16(3): 812-821.
39. Chen, SQ; Xiang, SL; Tan, ZH; Li, HY; Yan, XH; Yin, JW; Shen, SY*; Zhang, JL. Exploration of the oxygen transport behavior in non-precious metal catalyst-based cathode catalyst layer for proton exchange membrane fuel cells[J]. Frontiers in Energy, 2023, 17(1): 123-133.
40. Shen, SY; Zhao, LT; Zhang, JL*. Promising approach for preparing metallic single-atom catalysts: electrochemical deposition[J]. Frontiers in Energy, 2022, 16(4): 537-541.
41. Luo, LX; Yan, XH; Shen, SY*; Zhang, JL*. Electrochemical CO2 separation by a shorted membrane[J]. Joule, 2022, 6(4): 720-722.
42. Liu, SQ; Yuan, S; Liang, YW; Li, HY; Xu, ZL; Xu, Q; Yin, JW; Shen, SY; Yan, XH*; Zhang, JL. Engineering the catalyst layers towards enhanced local oxygen transport of Low-Pt proton exchange membrane fuel cells: Materials, designs, and methods[J]. International Journal of Hydrogen Energy, 2023, 48(11): 4389-4417.
43. Zhao, LT; Fu, CH; Luo, LX; You, JB; An, L; Yan, XH; Shen, SY*; Zhang, JL. Electrochemical synthesis of monodispersed and highly alloyed PtCo nanoparticles with a remarkable durability towards oxygen reduction reaction[J]. Applied Catalysis B: Environmental, 2022, 318: 121831.
44. Li, HY; Cheng, XJ; Yan, XH; Shen, SY*; Zhang, JL*. A perspective on influences of cathode material degradation on oxygen transport resistance in low Pt PEMFC[J]. Nano Research, 2023, 16(1): 377-390.
45. Yan, XH; Xu ZL; Yuan, S; Han, Aidi; Shen, YT; Cheng, XJ; Liang, YW; Shen, SY*; Zhang, JL. Structural and transport properties of ultrathin perfluorosulfonic acid ionomer film in proton exchange membrane fuel cell catalyst layer: A review[J]. Journal of Power Sources, 2022, 536: 231523.
46. Hu, CY; Wei, GH; Zhu, FJ; Wu, AM; Luo, LX; Shen, SY; Zhang, JL*. Platinum-Based Nanocomposite Pt@ BSA as an Efficient Electrochemical Biosensing Interface for Rapid and Ultrasensitive Determination of Folate Receptor-Positive Tumor Cells[J]. ACS Applied Bio Materials, 2022, 5(6): 3038-3048.
47. An, L; Yang, F; Fu, CH; Cai, XY; Shen, SY; Xia, GF; Li, J; Du, YZ; Luo, LX; Zhang, JL*. A functionally stable RuMn electrocatalyst for oxygen evolution reaction in acid[J]. Advanced Functional Materials, 2022, 32(27): 2200131.
48. Cheng, XJ; Shen, SY; Wei, GH; Wang, C; Luo, LX; Zhang, JL*. Perspectives on challenges and achievements in local oxygen transport of low Pt proton exchange membrane fuel cells[J]. Advanced Materials Technologies, 2022, 7(8): 2200228.
49. Luo, LX; Fu, CH; Guo, YG; Kang, Q; Wu, AM; Cai, XY; Zhao, LT; Tan, ZH; Yin, JW; Xia, GF; Shen, SY*; Zhang, JL*. Electronic and potential synergistic effects of surface-doped P–O species on uniform Pd nanospheres: breaking the linear scaling relationship toward electrochemical oxygen reduction[J]. ACS Applied Materials & Interfaces, 2022, 14(12): 14146-14156.
50. Shen, YT; Yan, XH*; An, L; Shen, SY; An, L; Zhang, JL*. Portable proton exchange membrane fuel cell using polyoxometalates as multi-functional hydrogen carrier[J]. Applied Energy, 2022, 313: 118781.
51. 章俊良*, 程明, 羅夏爽, 李慧媛, 羅柳軒, 程曉靜, 閆曉暉*, 沈水云*. 車用燃料電池電堆關(guān)鍵技術(shù)研究現(xiàn)狀[J]. 汽車安全與節(jié)能學(xué)報(bào), 2022, 13(1): 1-28.
52. Fan, YH; Wu, AM; Yan, XH; Shen, SY; Zhang, JL*. Three‐dimensional, porous, highly active α‐MnO2/prGO hybrid nanocomposites as cathode of non‐aqueous Li‐O2 batteries[J]. International Journal of Energy Research, 2022, 46(3): 2737-2747.
53. Luo, LX; Fu, CH; Wu, AM; Zhuang, ZC; Zhu, FJ; Jiang, FL; Shen, SY; Cai, XY; Kang, Q; Zheng, ZF; Hu, CY; Yin, JW; Xia, GF; Zhang, JL*. Hydrogen-assisted scalable preparation of ultrathin Pt shells onto surfactant-free and uniform Pd nanoparticles for highly efficient oxygen reduction reaction in practical fuel cells[J]. Nano Research, 2022, 15(3): 1892-1900.
54. Cheng, XJ; You, JB; Shen, SY; Wei, GH; Yan, XH; Wang, C; Zhang, JL*. An ingenious design of nanoporous nafion film for enhancing the local oxygen transport in cathode catalyst layers of PEMFCs[J]. Chemical Engineering Journal, 2022, 439: 135387.
55. Zheng, ZF; Luo, LX; Shen, SY; Wei, GH; Zhang, JL*. Insight into the potential strategies for mitigating Pt degradation in proton exchange membrane fuel cells (PEMFCs): From the perspective of Pt ion transport[J]. Journal of Power Sources, 2022, 522: 230999.
56. Ma, C; Zou, XY; Li, A; Gao, Z; Luo, LX; Shen, SY; Zhang, JL; Huang, Z; Zhu, L*. Rapid flame synthesis of carbon doped defective ZnO for electrocatalytic CO2 reduction to syngas[J]. Electrochimica Acta, 2022, 411: 140098.
57. Shen, SY; Li, L; Fu, CH; Wei, GH; Cheng, XJ; Yin, JW; Yan, XH; Wu, G; Zhang, JL*. A Facile Strategy to Boost the Active Sites of Fe–N–C Electrocatalyst for the Oxygen Reduction Reaction[J]. Journal of The Electrochemical Society, 2022, 169(3): 034506.
58. Shen, SY; Ren, ZW; Xiang, SL; Chen, SQ; Tan, ZH; Li, H; Zhang, JL*. The Development of a Highly Durable Fe-NC Electrocatalyst With Favorable Carbon Nanotube Structures for the Oxygen Reduction in PEMFCs[J]. Journal of Electrochemical Energy Conversion and Storage, 2022, 19(1): 010905.
59. 任子文, 譚澤昊, 向思磊, 陳士渠, 沈水云*, 章俊良*.基于MOFs材料的非貴金屬氧還原電催化劑研究進(jìn)展[J]. 中國(guó)科學(xué):技術(shù)科學(xué), 2022, 52(03): 375-388.
60. Cai, XY; Yang, F; An, L; Fu, CH; Luo, LX; Shen, SY; Zhang, JL*. Evaluation of electrocatalytic activity of noble metal catalysts toward nitrogen reduction reaction in aqueous solutions under ambient conditions[J]. ChemSusChem, 2022, 15(1): e202102234.
61. Fu, CH; Shen, SY; Wu, RF; Yan, XH; Xia, GF; Zhang, JL*. Facile controlled synthesis of hierarchically structured mesoporous Li4Ti5O12/C/rGO composites as high-performance anode of lithium-ion batteries[J]. Frontiers in Energy, 2022, 16(4): 607-612.
62. Cheng, QQ; Yang, S; Fu, CH; Zou, LL*; Zou, ZQ, Jiang, Z; Zhang, JL; Yang, H*. High-loaded sub-6 nm Pt1Co1 intermetallic compounds with highly efficient performance expression in PEMFCs[J]. Energy & Environmental Science, 2022, 15(1): 278-286.
63. Wan, QQ; Liu, YY; Ke, CC*; Zhang, Y; Jiang, WX; Qu, Y; Zhang, LH; Li, J; Gui, J; Hou, JB; Xia, GF; Yin, JW; Zhang, JL*. Insight on performance degradation of phthalocyanine cobalt-based gas diffusion cathode for carbon dioxide electrochemical reduction[J]. ACS Sustainable Chemistry & Engineering, 2021, 9(51): 17214-17220.
64. Yuan, S; Gao, Q; Ke, CC; Zuo, T; Hou, JB*; Zhang, JL*. Mesoporous carbon materials for electrochemical energy storage and conversion[J]. ChemElectroChem, 2022, 9(6): e202101182.
65. Zou, XY; Ma, C; Li, A; Gao, Z; Shadike, Z; Jiang, K; Zhang, JL; Huang, Z; Zhu, L*. Nanoparticle-assisted Ni–Co binary single-atom catalysts supported on carbon nanotubes for efficient electroreduction of CO2 to syngas with controllable CO/H2 ratios[J]. ACS Applied Energy Materials, 2021, 4(9): 9572-9581.
66. Yan, XH; Peng, YM; Shen, YT; Shen, SY; Wei, GH; Yin, JW; Zhang, JL*. The use of phase-change cooling strategy in proton exchange membrane fuel cells: A numerical study[J]. Science China Technological Sciences, 2021, 64(12): 2762-2770.
67. You, JB; Zheng, ZF; Luo, LX; Cheng, XJ; Fu, CH; Shen, SY; Wei, GH; Wang, C; Zhang, JL*. Microstructures and proton networks of ionomer film on the surface of platinum single atom catalyst in polymer electrolyte membrane fuel cells[J]. The Journal of Physical Chemistry C, 2021, 125(43): 24240-24248.
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167. Xia, GF; Li, N*; Li, DY; Liu, RQ; Wang, C; Li, Q; Lu, XJ; Spendelow, JS; Zhang, JL; Wu, G*. Graphene/Fe2O3/SnO2 ternary nanocomposites as a high-performance anode for lithium ion batteries[J]. ACS applied materials & interfaces, 2013, 5(17): 8607-8614.
168. Hu, CY; Yang, DP; Wang, ZY; Yu, LL; Zhang, JL*; Jia, NQ*. Improved EIS performance of an electrochemical cytosensor using three-dimensional architecture Au@BSA as sensing layer[J]. Analytical chemistry, 2013, 85(10): 5200-5206.
169. Kong, AG; Dong, B; Zhu, XF; Kong, YY; Zhang, JL*; Shan, YK*. Ordered mesoporous Fe-porphyrin-like architectures as excellent cathode materials for the oxygen reduction reaction in both alkaline and acidic media[J]. Chemistry (Weinheim an der Bergstrasse, Germany), 2013, 19(48): 16170-16175.
170. Yao, XY; Su, KH; Sui, S*; Mao, LW; He, A; Zhang, JL; Du, SF. A novel catalyst layer with carbon matrix for Pt nanowire growth in proton exchange membrane fuel cells (PEMFCs)[J]. International Journal of Hydrogen Energy, 2013, 38(28): 12374-12378.
171. Zhuo, XL; Sui, S; Zhang, JL*. Electrode structure optimization combined with water feeding modes for Bi-Functional Unitized Regenerative Fuel Cells[J]. International Journal of Hydrogen Energy, 2013, 38(11): 4792-4797.
172. Muller, DA; Yu, Y; Mundy, JA; Xin, HL; Cabezas, R; Kourkoutis, LF; Liu, Z; Zhang, JL; Subramanian, NP; Makharia, R; Wagner, FT. Three-Dimensional Reconstructions and Atomic-Resolution Spectroscopic Imaging of Ensembles of Nanocatalyst Particles Across The Life Of A Fuel Cell[J]. Microscopy and Microanalysis, 2012, 18(S2): 1286-1287.
173. Yu, ZQ*; Zhang, JL*; Liu, ZY; Ziegelbauer, JM; Xin, HL; Dutta, I; Muller, DA; Wagner, FT. Comparison between dealloyed PtCo3 and PtCu3 cathode catalysts for proton exchange membrane fuel cells[J]. The Journal of Physical Chemistry C, 2012, 116(37): 19877-19885.
174. Liu, ZY*; Xin, HL; Yu, ZQ; Zhu, Y; Zhang, JL; Mundy, JA; Muller, DA; Wagner, FT. Atomic-scale compositional mapping and 3-dimensional electron microscopy of dealloyed PtCo3 catalyst nanoparticles with spongy multi-core/shell structures[J]. Journal of The Electrochemical Society, 2012, 159(9): F554-F559.
175. Subramanian, NP*; Greszler, TA; Zhang, JL; Gu, W; Makharia, RR. Pt-oxide coverage-dependent oxygen reduction reaction (ORR) kinetics[J]. Journal of The Electrochemical Society, 2012, 159(5): B531-B540.
176. Huang, Y; Zhang, JL*; Liu, YX; Subramanian, N; Wagner, FT; Jorne, J; Li, JCM. Transient Platinum Oxide Formation and Oxygen Reduction on Carbon-Supported Platinum and Platinum-Alloy Electrocatalysts[J]. ECS Transactions, 2011, 41(1): 1009.
177. Subramanian, NP; Greszler, TA; Zhang, JL; Gu, W; Makharia, RR. Pt-oxide coverage-dependent oxygen reduction reaction (ORR) kinetics[J]. ECS Transactions, 2011, 41(1): 985-1007.
178. Xin, HL; Mundy, JA; Liu, Z*; Cabezas, R; Hovden, R; Kourkoutis, LF; Zhang, JL; Subramanian, NP; Makharia, R; Wagner, FT; Muller, DA*. Atomic-resolution spectroscopic imaging of ensembles of nanocatalyst particles across the life of a fuel cell[J]. Nano letters, 2012, 12(1): 490-497.
179. Zhang JL*. Recent advances in cathode electrocatalysts for PEM fuel cells[J]. Frontiers in Energy, 2011, 5(2): 137-148.
180. Wu, JB; Zhang, JL; Peng, ZM; Yang, SC; Wagner, FT; Yang, H*. Truncated octahedral Pt3Ni oxygen reduction reaction electrocatalysts[J]. Journal of the American Chemical Society, 2010, 132(14): 4984-4985.
181. Liu, ZY*; Zhang, JL*; Yu, PT; Zhang, JX; Makharia, R; More, KL; Stach, EA. Transmission electron microscopy observation of corrosion behaviors of platinized carbon blacks under thermal and electrochemical conditions[J]. Journal of the Electrochemical Society, 2010, 157(6): B906-B913.
182. Liu, YX*; Mathias, M; Zhang, JL. Measurement of platinum oxide coverage in a proton exchange membrane fuel cell[J]. Electrochemical and Solid-State Letters, 2009, 13(1): B1-B3.
183. Kowal, A; Li, M; Shao, MH*; Sasaki, K; Vukmirovic, MB; Zhang, JL, Marinkovic, NS; Liu, P; Frenkel, AI; Adzic, RR*. Ternary Pt/Rh/SnO2 electrocatalysts for oxidizing ethanol to CO2[J]. Nature Materials, 2009, 8(4): 325-330.
184. Ferrin, PA; Kandoi, S; Zhang, JL; Adzic, RR*; Mavrikakis, M*. Molecular and Atomic Hydrogen Interactions with Au-Ir Near-Surface Alloys[J]. The Journal of Physical Chemistry C, 2009, 113(4): 1411-1417.
185. Wang, JX*; Uribe, FA; Springer, TE; Zhang, JL; Adzic, RR. Intrinsic kinetic equation for oxygen reduction reaction in acidic media: the double Tafel slope and fuel cell applications[J]. Faraday discussions, 2009, 140: 347-362.
186. Lima, FHB; Zhang, JL; Shao, MH; Sasaki, K; Vukmirovic, MB; Ticianelli, EA; Adzic, RR*. Pt monolayer electrocatalysts for O2 reduction: PdCo/C substrate-induced activity in alkaline media[J]. Journal of Solid State Electrochemistry, 2008, 12: 399-407.
187. Vukmirovic, M; Zhang, JL*; Sasaki, K; Li, M; More, K; Radoslav Adzic, RR. New Metal Deposition Methods for Electrocatalysts Syntheses[J]. ECS Transactions, 2008, 13(10): 3-12.
188. Mathias, M; Baker, D; Zhang, JL; Liu, YX; Gu, WB. Frontiers in application of impedance diagnostics to H2-fed polymer electrolyte fuel cells[J]. ECS Transactions, 2008, 13(13): 129-152.
189. Zhang, JL; Sasaki, K; Sutter, E; Adzic, RR*. Stabilization of platinum oxygen-reduction electrocatalysts using gold clusters[J]. Science, 2007, 315(5809): 220-222.
190. Vukmirovic, MB; Zhang, JL; Sasaki, K; Nilekar, AU; Uribe, F; Mavrikakis, M; Adzic, RR*. Platinum monolayer electrocatalysts for oxygen reduction[J]. Electrochimica Acta, 2007, 52(6): 2257-2263.
191. Lima, FHB; Zhang, JL; Shao, MH; Sasaki, K; Vukmirovic, MB; Ticianelli, EA; Adzic, RR*. Catalytic activity-d-band center correlation for the O2 reduction reaction on platinum in alkaline solutions[J]. The Journal of Physical Chemistry C, 2007, 111(1): 404-410.
192. Shao, MH; Liu, P; Zhang, JL; Adzic, RR*. Origin of enhanced activity in palladium alloy electrocatalysts for oxygen reduction reaction[J]. The Journal of Physical Chemistry B, 2007, 111(24): 6772-6775.
193. Wang, JX*; Zhang, JL; Adzic, RR. Double-trap kinetic equation for the oxygen reduction reaction on Pt (111) in acidic media[J]. The Journal of Physical Chemistry A, 2007, 111(49): 12702-12710.
194. Adzic, RR*; Zhang, JL; Sasaki, K; Vukmirovik, MB; Shao M; Wang JX; Nilekar, AU; Mavrikakis M; Valerio JA; Uribe F. Platinum monolayer fuel cell electrocatalysts[J]. Topics in Catalysis, 2007, 46: 249-262.
195. Nilekar, AU; Xu, Y; Zhang, JL; Vukmirovic, MB; Sasaki, K; Adzic, RR*; Mavrikakis, M*. Bimetallic and ternary alloys for improved oxygen reduction catalysis[J]. Topics in Catalysis, 2007, 46: 276-284.
196. Shao, MH; Huang, T; Liu, P; Zhang, JL; Sasaki, K; Vukmirovic, MB; Adzic, RR*. Palladium monolayer and palladium alloy electrocatalysts for oxygen reduction[J]. Langmuir, 2006, 22(25): 10409-10415.
197. Adzic, RR*; Zhang, JL; Shao, MH; Sasaki, K; Vukmirovic, M; Uribe, FA. Platinum and mixed platinum-metal monolayer fuel cell electrocatalysts: design, activity and long-term performance stability[J]. ECS transactions, 2006, 3(1): 31-36.
198. Sasaki, K; Zhang, JL; Wang, J; Uribe, F; Adzic, RR*. Platinum submonolayer-monolayer electrocatalysis: An electrochemical and X-ray absorption spectroscopy study[J]. Research on chemical intermediates, 2006, 32(5): 543-559.
199. Zhang, JL; Vukmirovic, MB; Sasaki, K; Nilekar, AU; Mavrikakis, M; Adzic, RR*. Mixed-metal Pt monolayer electrocatalysts for enhanced oxygen reduction kinetics[J]. Journal of the American Chemical Society, 2005, 127(36): 12480-12481.
200. Zhang, JL; Vukmirovic, MB; Xu, Y; Mavrikakis, M; Adzic, RR*. Controlling the catalytic activity of platinum‐monolayer electrocatalysts for oxygen reduction with different substrates[J]. Angewandte Chemie, 2005, 117(14): 2170-2173.
201. Zhang, JL; Lima, FHB; Shao, MH; Sasaki, K; Wang, JX; Hanson, J; Adzic, RR*. Platinum monolayer on nonnoble metal-noble metal core-shell nanoparticle electrocatalysts for O2 reduction[J]. The Journal of physical chemistry B, 2005, 109(48): 22701-22704.
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國(guó)內(nèi)授權(quán)專利：
1. 章俊良, 程曉靜, 沈水云, 閆曉輝. 一種加快局域氧氣傳質(zhì)的膜電極制備方法:CN202210320223.0[P]. 2022-07-08.
2. 侯俊波, 章俊良, 袁述, 柯長(zhǎng)春, 張龍海. 一種固體酸質(zhì)子傳導(dǎo)膜的制備方法:CN202111124377.4[P]. 2021-12-24.
3. 侯俊波, 章俊良, 袁述, 柯長(zhǎng)春, 張龍海. 一種固體酸性鹽、固體酸質(zhì)子交換膜及制備方法:CN202111122800.7[P]. 2021-12-28.
4. 章俊良, 安璐, 楊帆, 沈水云, 沈淵亭, 高騫. 碳紙載錳化釕催化劑及其制備方法和應(yīng)用:CN202111548861.X[P]. 2022-03-29.
5. 章俊良, 趙路甜, 羅柳軒, 沈水云, 殷潔煒, 夏國(guó)鋒, 閆曉暉, 柯長(zhǎng)春, 吳愛(ài)明, 范月恒. 低鉑/非鉑復(fù)合催化劑及其制備方法:CN202011181023.9[P]. 2021-01-05.
6. 侯俊波, 章俊良, 袁述, 柯長(zhǎng)春, 張龍海. 一種燃料電池?zé)峁芾硐到y(tǒng)控制裝置、方法及系統(tǒng):CN202110638198.6[P]. 2021-11-02.
7. 章俊良, 趙路甜, 沈水云, 閆曉暉, 王超, 羅柳軒, 范月恒. 電沉積制備碳載單分散Pt-Ni納米顆粒催化劑及其制備與應(yīng)用:CN202010560901.1[P]. 2020-09-29.
8. 章俊良, 程曉靜, 閆曉暉, 沈水云, 夏國(guó)鋒, 殷潔煒, 王超, 朱鳳鵑. 測(cè)量燃料電池催化層中碳載體對(duì)氧氣傳質(zhì)影響特征的方法:CN201910858812.2[P]. 2019-12-31.
9. 任歡, 沈水云, 章俊良, 周紅茹, 羅夏爽, 郭楊格. 一種高活性、高穩(wěn)定性PtNi納米合金催化劑及其制備方法、應(yīng)用:CN201910389986.9[P]. 2020-11-10.
10. 周紅茹, 沈水云, 章俊良, 陳雪松, 方亮, 王晉, 王超, 程曉靜. 一種膜電極及其制備方法:CN202310672633.6[P]. 2023-07-07.
11. 章俊良, 羅柳軒, 吳愛(ài)明, 朱鳳鵑. 核殼結(jié)構(gòu)Pd@Pt/C或PdM@Pt/C催化劑及其制備:CN201811426591.3[P]. 2021-09-21.
12. 柯長(zhǎng)春, 章俊良, 侯俊波, 莊小東, 張龍海, 夏國(guó)鋒, 申欣明. 一種基于膜增濕的燃料電池增濕系統(tǒng)壓力自適應(yīng)平衡方法:CN202010755127.X[P]. 2021-06-29.
13. 章俊良, 李凡, 沈水云, 范月恒, 趙路甜, 郭楊格. 有機(jī)體系中電沉積制備的Pt-M金屬合金催化劑:CN201910163691.X[P]. 2021-05-11.
14. 章俊良, 吳愛(ài)明, 夏國(guó)鋒, 李琳, 沈水云, 閆曉暉, 朱鳳鵑. 一種雙摻雜多孔石墨烯陰極非鉑催化劑及其制備方法:CN201910194256.3[P]. 2021-05-11.
15. 章俊良, 閆曉暉, 柯長(zhǎng)春, 夏國(guó)鋒, 程曉靜, 韓愛(ài)娣, 朱鳳鵑, 陳俊任. 一種全工況匹配的燃料電池?cái)U(kuò)散層及其制備方法:CN201910594895.9[P]. 2021-05-11.
16. 章俊良, 夏國(guó)鋒, 李琳, 李曉琳, 沈水云, 楊琨, 馮奇, 閆曉暉, 柯長(zhǎng)春. 上海汽車集團(tuán)股份有限公司. 氮摻雜多孔碳包覆鈷納米顆粒的復(fù)合材料的制備方法及應(yīng)用:CN201910190644.4[P]. 2021-04-13.
17. 柯長(zhǎng)春, 申欣明, 宋承鴻, 石鈺, 王雷, 章俊良. 厚度補(bǔ)償式燃料電池堆集流板、燃料電池堆及其優(yōu)化方法:CN201810987964.8[P]. 2021-04-02.
18. 章俊良, 劉昱彤, 魏光華, 王超, 程曉靜. 一種具有超低氧氣傳質(zhì)阻力的膜電極:CN201911186101.1[P]. 2020-01-31.
19. 章俊良, 王超, 閆曉暉, 沈水云, 夏國(guó)鋒, 殷潔煒, 程曉靜, 朱鳳鵑. 測(cè)量離聚物對(duì)局域傳質(zhì)阻力影響特征的方法:CN201811553801.5[P]. 2020-11-06.
20. 章俊良, 鄭志峰, 朱鳳鵑, 羅柳軒, 魏光華, 夏國(guó)鋒, 楊帆. 陰極Pt-M催化劑的循環(huán)穩(wěn)定性預(yù)測(cè)模型及其建模方法:CN201910244048.X[P]. 2020-11-06.
21. 章俊良, 陳俊任, 閆曉暉, 韓愛(ài)娣, 程曉靜, 柯長(zhǎng)春, 沈水云. 一種非貴金屬催化劑膜電極耐久性測(cè)試方法:CN201910803326.0[P]. 2020-08-18.
22. 章俊良, 蔣芳玲, 朱鳳鵑, 羅柳軒, 吳愛(ài)明, 王超. 燃料電池催化層中催化劑的同步輻射原位測(cè)試裝置:CN201811051414.1[P]. 2020-08-04.
23. 章俊良, 羅柳軒, 朱鳳鵑, 胡宸溢, 沈水云, 李琳, 田仁秀. 球形核殼狀PdxNi1 x@Pt/C催化劑及其制備:CN201610856200.6[P]. 2017-03-08.
24. 章俊良, 張堯, 張萬(wàn)森, 沈水云, 夏國(guó)鋒, 吳愛(ài)明, 殷潔煒. 摻錳硅酸鐵鋰/石墨烯空心納米球正極材料及其制備方法:CN201710424020.5[P]. 2020-07-14.
25. 章俊良, 林晨, 閆曉暉, 柯長(zhǎng)春, 王超, 程曉靜, 鄭志峰, 朱鳳娟. 一種強(qiáng)化脊下對(duì)流的波浪形質(zhì)子交換膜燃料電池流道:CN201810713256.5[P]. 2020-07-14.
26. 章俊良, 吳愛(ài)明, 夏國(guó)鋒, 吳若飛, 沈水云, 張堯, 朱鳳鵑. 鋰空氣電池多孔隔膜材料的制備方法:CN201610615341.9[P]. 2020-02-21.
27. 章俊良, 王超, 程曉靜, 張卿雷, 沈水云, 羅柳軒, 胡宸溢, 朱鳳鵑. 測(cè)量燃料電池催化層中氧氣有效擴(kuò)散系數(shù)的方法:CN201610737646.7[P]. 2020-01-07.
28. 殷潔煒, 章俊良, 夏國(guó)鋒, 沈水云, 朱鳳鵑. 干氫測(cè)試條件下的質(zhì)子交換膜燃料電池單電池測(cè)試裝置:CN201610657049.3[P]. 2019-11-19.
29. 章俊良, 王超, 張卿雷, 程曉靜, 沈水云, 朱鳳鵑, 胡宸溢, 羅柳軒. 親水/疏水復(fù)合型多層膜電極及其制備方法:CN201610717402.2[P]. 2019-10-18.
30. 蔣峰景, 劉力恒, 尹逸軒, 王垚俁, 王希堯, 章俊良. 液體支撐二氧化碳分離膜:CN201410619240.X[P]. 2016-06-01.
31. 蔣峰景, 尹逸軒, 王希堯, 劉力恒, 王垚俁, 章俊良. 環(huán)保型液體支撐二氧化碳分離膜:CN201410618099.1[P]. 2016-05-11.
32. 章俊良, 朱鳳鵑, 羅柳軒, 沈水云, 夏國(guó)鋒. 一種碳固載納米鉑催化劑的制備方法:CN201410820940.5[P]. 2015-04-29.
33. 章俊良, 朱鳳鵑, 沈水云, 夏國(guó)鋒, 吳若飛. 一種碳載納米鉑合金催化劑的制備方法:CN201410820921.2[P]. 2015-05-06.
34. 章俊良, 張士林, 王樹華, 蔣峰景. 一種SiO2摻雜全氟磺酸質(zhì)子交換膜的制備方法:CN201310537841.1[P]. 2014-02-26.
35. 章俊良, 朱鳳鵑, 沈水云, 夏國(guó)鋒, 吳若飛. 一種碳載納米鉑合金催化劑的制備方法:CN201410820939.2[P]. 2015-05-06.
36. 章俊良, 夏國(guó)鋒, 蔣峰景, 吳若飛, 朱鳳鵑. 簡(jiǎn)易扣式鋰空氣電池測(cè)試裝置:CN201310190283.6[P]. 2013-09-11.
37. 蔣峰景, 鐘春燕, 章俊良, 余晴春, 鐘宇光. 一種細(xì)菌纖維素多孔薄膜及其制備方法:CN201410416648.7[P]. 2014-11-19.
38. 章俊良, 張士林, 王樹華, 蔣峰景. 一種高吸水性質(zhì)子交換膜的制備方法:CN201410215865.X[P]. 2014-10-01.
39. 章俊良, 王超, 蔣峰景, 崔智, 朱鳳娟. 優(yōu)化燃料電池排水性能的質(zhì)子膜燃料電池流道:CN201410012652.7[P]. 2014-04-23.
40. 隋升, 蘇凱華, 王曙中, 章俊良, 蔣峰景. 一種焓輪增濕器的制造方法:CN201210559771.5[P]. 2013-04-03.
41. 章俊良, 吳愛(ài)明, 夏國(guó)鋒, 李琳, 沈水云, 閆曉暉, 朱鳳鵑. 一種有機(jī)/無(wú)機(jī)復(fù)合中高溫質(zhì)子導(dǎo)電膜的制備方法:CN201310029986.0[P]. 2013-06-26.
42. 章俊良, 吳若飛, 蔣峰景, 夏國(guó)鋒, 朱鳳鵑. LiFexM1-xPO4/介孔碳復(fù)合材料及其制備方法:CN201310153728.3[P]. 2013-10-02.
43. 隋升, 蘇凱華, 王曙中, 章俊良, 蔣峰景. 用于燃料電池的膜增濕器:CN201210559773.4[P]. 2013-04-03.
44. 蔣峰景, 章俊良, 于立強(qiáng), 宋星宇, 劉啟桐, 顧習(xí)之, 馬鑫. 復(fù)合型二氧化碳吸附劑:CN201310139754.0[P]. 2013-08-07.
45. 拉多斯拉夫·R·阿季奇, 章俊良, 米奧米爾·武克米羅維奇. 用于鉑氧化和溶解速率降低的氧還原電催化劑:CN200680017422.3[P]. 2006-05-16.
國(guó)際授權(quán)專利：
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.