教育背景

1. 1.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-NC Electrocatalyst for the Oxygen Reduction Reaction,[J]Journal of The Electrochemical Society, 2022, 169(3), 034506
2. Shen, SY; Ren, ZW; Xiang, SL; Chen, SQ; Tan, ZH; Li, H; Zhang, JL, The Development of a Highly Durable Fe-N-C Electrocatalyst With Favorable Carbon Nanotube Structures for the Oxygen Reduction in PEMFCs,[J]Journal of Electrochemical Energy Conversion and Storage, 2022, 19(1), 010905
3. 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: 121831
4. 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. 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, 2022: 1-14
6. Yan, XH; Xu, ZL; Yuan, S; Han, AD; 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
7. Luo, LX; Yan, XH; Shen, SY; Zhang, JL, Electrochemical CO2 separation by a shorted membrane[J]. Joule, 2022, 6(4): 720-722
8. 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: 2200131
9. 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
10. Zhao, JJ; Fu, CH; Ye, K; Liang, Z; Jiang, FL; Shen, SY; Zhao, XR; Ma, L; Shadike, Z; Wang, XM; Zhang, JL; Jiang, K, Manipulating the oxygen reduction reaction pathway on Pt-coordinated motifs,[J]Nature communications, 2022, 13(1), 1-10
11. 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
12. 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
13. 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
14. 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
15. 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
16. 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
17. Li, PA; Qiu, DK; Peng, LF; Shen, SY; Lai, XM, Analysis of degradation mechanism in unitized regenerative fuel cell under the cyclic operation,[J]Energy Conversion and Management, 2022, 254, 115210
18. 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
19. 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, 1-6
20. Shen, SY; Chen, JR; Yan, XH; Cheng, XJ; Zhao, LT; Ren, ZW; Li, L; Zhang, JL, Insights into properties of non-precious metal catalyst (NPMC)-based catalyst layer for proton exchange membrane fuel cells,[J]Journal of Power Sources, 2021, 496, 229817
21. Cheng, XJ; Wei, GH; Wang, C; Shen, SY; Zhang, JL, Experimental probing of effects of carbon support on bulk and local oxygen transport resistance in ultra-low Pt PEMFCs,[J]International Journal of Heat and Mass Transfer, 2021, 164, 120549
22. An, L; Cai, XY; Shen, SY; Yin, JW; Jiang, K; Zhang, JL, Dealloyed RuNiO x as a robust electrocatalyst for the oxygen evolution reaction in acidic media,[J]Dalton Transactions, 2021, 50(15), 5124-5127
23. Fu, CH; Luo, LX; Yang, LJ; Shen, SY; Wei, GH; Zhang, JL, Breaking the scaling relationship of ORR on carbon-based single-atom catalysts through building a local collaborative structure,[J]Catalysis Science & Technology, 2021, 11(23), 7764-7772
24. Chen, XJ; Shen, SY; Wang, C; Yan, XH; Zhang, JL, Analysis and outlook of mass transport in ultralow Pt loading proton exchange membrane fuel cells,[J]Chinese Science Bulletin, 2021, 66(33), 4240-4255
25. Li, L; Shen, SY; Wei, GH; Zhang, JL, Electrocatalytic activity of hemin-derived hollow non-precious metal catalyst for oxygen reduction reaction,[J]Acta Phys.-Chim. Sin, 2021, 37, 1911011
26. Guo, YG; Li, B; Shen, SY; Luo, LX; Wang, GF; Zhang, JL, Potential-dependent mechanistic study of ethanol electro-oxidation on palladium,[J]ACS Applied Materials & Interfaces, 2021, 13(14), 16602-16610
27. Peng, YM; Yan, XH; Lin, C; Shen, SY; Yin, JW; Zhang, JL, Effects of flow field on thermal management in proton exchange membrane fuel cell stacks: A numerical study,[J]International Journal of Energy Research, 2021, 45(5), 7617-7630
28. Fu, CH; Luo, LX; Yang, LJ; Shen, SY; Yan, XH; Yin, JW; Wei, GH; Zhang, JL, An In-Depth Theoretical Exploration of Influences of Non-Metal-Elements Doping on the ORR Performance of Co-gN4,[J]ChemCatChem, 2021, 13(9), 2303-2310
29. Hu, CY; Wu, AM; Zhu, FJ; Luo, LX; Yang, F; Xia, GF; Wei, GH; Shen, SY; Zhang, JL, Lithium-ion modified cellulose as a water-soluble binder for Li-O2 battery,[J]Frontiers in Energy, 2021, 1-7
30. Guo, YG; Wang, GF; Shen, SY; Wei, GH; Zhang, JL, On scaling relations of single atom catalysts for electrochemical ammonia synthesis,[J]Applied Surface Science, 2021, 550, 149283
31. Cai, XY; Iriawan, H; Yang, F; Luo, LX; Shen, SY; Shao-Horn, Y; Zhang, JL, Interaction of ammonia with nafion and electrolyte in electrocatalytic nitrogen reduction study,[J]The Journal of Physical Chemistry Letters, 2021, 12(29), 6861-6866
32. Fu, CH; Luo, LX; Yang, LJ; Shen, SY; Wei, GH; Yin, JW; Zhang, JL, Theoretical Exploration of the Thermodynamic Process Competition between NRR and HER on Transition-Metal-Doped CoP (101) Facets,[J]The Journal of Physical Chemistry C, 2021, 125(31), 17051-17057
33. Cai, XY; Fu, CH; Iriawan, H; Yang, F; Wu, AM; Luo, LX; Shen, SY; Wei, GH; Shao-Horn, Y; Zhang, JL, Lithium-mediated electrochemical nitrogen reduction: Mechanistic insights to enhance performance,[J] Iscience, 2021, 24(10), 103105
34. Guo, YG; Cai, XY; Shen, SY; Wang, GF; Zhang, JL, Computational prediction and experimental evaluation of nitrate reduction to ammonia on rhodium,[J]Journal of Catalysis, 2021, 402, 1-9
35. Zhao, LT; Guo, YG; Fu, CH; Luo, LX; Wei, GH; Shen, SY; Zhang, JL, Electrodeposited PtNi nanoparticles towards oxygen reduction reaction: A study on nucleation and growth mechanism,[J]Chinese Journal of Catalysis, 2021, 42(11), 2068-2077
36. 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
37. 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
38. X Yan, X Li, C Fu, C Lin, H Hu, S Shen, G Wei, J Zhang, Large specific surface area S-doped Fe–N–C electrocatalysts derived from Metal–Organic frameworks for oxygen reduction reaction,[J]Progress in Natural Science: Materials International, 2020, 30(6), 896-904
39. Fu, CH; Yan, XH; Yang, LJ; Shen, SY; Luo, LX; Wei, GH; Zhang, JL, First-principles study of catalytic activity of W-doped cobalt phosphide toward the hydrogen evolution reaction,[J]Chinese Journal of Catalysis, 2020, 41, 11, 1698-1705
40. Han, AD; Fu, CH; Yan, XH; Chen, JR; Cheng, XJ; Ke, CC; Hou, JB; Shen, SY; Zhang, JL, Effect of cobalt ion contamination on proton conduction of ultrathin Nafion film,[J]International Journal of Hydrogen Energy, 2020, 45, 46, 25276-25285
41. Zhu, FJ; Luo, LX ; Wu, AM ; Wang, C; Cheng, XJ ; Shen, SY ; Ke, CC; Yang, H; Zhang, JL, Improving the High-Current-Density Performance of PEMFC through Much Enhanced Utilization of Platinum Electrocatalysts on Carbon,[J]Acs Applied Materials & Interfaces, 2020, 12, 23, 26076-26083
42. Zheng, ZF; Yang, F; Lin, C; Zhu, FJ; Shen, SY; Wei, GH; Zhang, JL, Design of gradient cathode catalyst layer (CCL) structure for mitigating Pt degradation in proton exchange membrane fuel cells (PEMFCs) using mathematical method,[J]Journal of Power Sources, 2020, 451, 227729
43. Zheng, ZF; Yang, F; Lin, C; Zhu, FJ; Shen, SY ; Wei, GH; Zhang, JL, Voltage Cycling-Induced Pt Degradation in Proton Exchange Membrane Fuel Cells: Effect of Cycle Profiles,[J]Acs Applied Materials & Interfaces, 2020, 12, 31, 35088-35097
44. Yan, XH; Li, HZ; Lin, C; Chen, JR; Han, AD; Shen, SY; Zhang, JL, An inorganic-framework proton exchange membrane for direct methanol fuel cells with increased energy density,[J]Sustainable Energy & Fuels, 2020, 4, 2, 772-778
45. Wang, H; Lin, C; Yan, XH; Wu, AM; Shen, SY ; Wei, GH ; Zhang, JL, Mechanical property-reinforced PEO/PVDF/LiClO4/SN blend all solid polymer electrolyte for lithium ion batteries,[J]Journal of Electroanalytical Chemistry, 2020, 869, 114156
46. Li, L ; Shen, SY; Li, XL; Luo, LX ; Wei, GH; Zhang, JL, A derivative of mesoporous oxygen reduction reaction electrocatalysts from citric acid and dicyandiamide,[J]International Journal of Hydrogen Energy, 2020, 45, 11, 6563-6572
47. Luo, XS; Guo, YG; Zhou, HR; Ren, H; Shen, SY; Wei, GH; Zhang, JL, Thermal annealing synthesis of double-shell truncated octahedral Pt-Ni alloys for oxygen reduction reaction of polymer electrolyte membrane fuel cells,[J]Frontiers in Energy,2020, 14(4), 767-777
48. 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, 2020, 1-10
49. Luo, LX; Fu, CH; Shen, SY; Zhu, FJ; Zhang, JL, Probing structure-designed Cu–Pd nanospheres and their Pt-monolayer-shell derivatives as high-performance electrocatalysts for alkaline and acidic oxygen reduction reactions,[J]Journal of Materials Chemistry A, 2020, 8(42), 22389-22400.
50. Luo, LX; Fu, CH; Yan, XH; Shen, SY; Yang, F; Guo, YG; Zhu, FJ; Yang, LJ; Zhang, JL, Promoting Effects of Au Submonolayer Shells on Structure-Designed Cu–Pd/Ir Nanospheres: Greatly Enhanced Activity and Durability for Alkaline Ethanol Electro-Oxidation,[J]ACS Applied Materials & Interfaces, 2020, 12(23), 25961-25971
51. Shen, SY; Han, AD; Yan, XH; Chen, JR; Cheng, XJ; Zhang, JL, Influence of Equivalent Weight of Ionomer on Proton Conduction Behavior in Fuel Cell Catalyst Layers,[J]Journal Of The Electrochemical Society, 2019, 166 , 12 , R724-R728
52. Shen, SY; Wu, AM; Xia, GF; Wei, GH;  Yan, XH; Zhang, Y; Zhu, FJ; Yin, JW; Zhang, JL, Facile preparation of unique three-dimensional (3D) α-MnO 2/MWCNTs macroporous hybrid as the high-performance cathode of rechargeable Li-O 2 batteries,[J]Nano Research, 2019, 12,  69-75
53. Shen, SY; Zhang, Y; Wei, GH; Zhang, WS; Yan, XH; Xia, GF; Wu, AM; Ke, CC; Zhang, JL, Li2FeSiO4/C hollow nanospheres as cathode materials for lithium-ion batteries,[J]Nano Research, 2019, 12 , 2 , 357-363
54. Luo, LX; Fu, CH; Yang, F; Li, XL; Jiang, FL; Guo, YG; Zhu, FJ; Yang, LJ; Shen, SY; Zhang, JL, Composition-graded Cu–Pd nanospheres with Ir-doped surfaces on N-doped porous graphene for highly efficient ethanol electro-oxidation in alkaline media,[J]ACS Catalysis, 2019, 10(2), 1171-1184
55. Zheng, ZF; Luo, LX; Zhu, FJ; Cheng, XJ; Yang, Y; Shen, SY; Wei, GH; Zhang, JL, Degradation of core-shell Pt3Co catalysts in proton exchange membrane fuel cells (PEMFCs) studied by mathematical modeling,[J]Electrochimica Acta, 2019, 323, 134751
56. Lin, C; Yan XH; Wei, GH; Ke, CC; Shen, SY; Zhang, JL, Optimization of configurations and cathode operating parameters on liquid-cooled proton exchange membrane fuel cell stacks by orthogonal method,[J]Applied Energy, 2019, 253, 113496
57. Wu, AM; Wei, GH; Yang, F; Xia, GF, Yan, XH; Shen, SY; Zhu, FJ; Ke, CC; Zhang, JL, Nitrogen and iodine dual-doped 3D porous graphene as a bi-functional cathode catalyst for Li-O2 batteries,[J]Electrochimica Acta, 2019, 318, 354-361
58. Anwar, MT; Yan, XH; Asghar, MR; Husnain, N; Shen, SY; Luo, LX; Cheng, XJ; Wei, GH; Zhang, JL, MoS2-rGO hybrid architecture as durable support for cathode catalyst in proton exchange membrane fuel cells,[J]Chinese Journal Of Catalysis, 2019, 40, 8, 1160-1167
59. Anwar, MT; Yan, XH; Asghar, MR; Husnain, N; Shen, SY; Luo, LX; Zhang, JL, Recent advances in hybrid support material for Pt-based electrocatalysts of proton exchange membrane fuel cells,[J]International Journal Of Energy Research, 2019, 43, 7, 2694-2721
60. Yan, XH; Guan, C; Zhang, Y; Jiang, KC; Wei, GH; Cheng, XJ; Shen, SY; Zhang, JL, Flow field design with 3D geometry for proton exchange membrane fuel cells,[J]Applied Thermal Engineering, 2019, 147, 1107
61. Li, L; Shen, SY; Wei, GH; Li, XL; Yang, K; Feng, Q; Zhang, JL, A Comprehensive Investigation on Pyrolyzed Fe-N-C Composites as Highly Efficient Electrocatalyst toward the Oxygen Reduction Reaction of PEMFCs,[J]ACS Applied Materials & Interfaces, 2019, 11, 14126
62. Wang, C; Cheng, X; Yan, X; Shen, S; Ke, C; Wei, G; & Zhang, J., Respective Influence of Ionomer Content on Local and Bulk Oxygen Transport Resistance in the Catalyst Layer of PEMFCs with Low Pt Loading,[J]Journal Of The Electrochemical Society, 2019, 166(4), F239-F245
63. Chen, JR; Yan, XH; Fu, CH; Feng, Y; Lin, C; Li, XL; Shen, SY; Ke, CC; Zhang, JL, Insight into the Rapid Degradation Behavior of Nonprecious Metal Fe-N-C Electrocatalyst-Based Proton Exchange Membrane Fuel Cells,[J]Acs Applied Materials & Interfaces, 2019, 11, 41, 37779-37786
64. Cheng, XJ; Wang, C; Wei, GH; Yan, XH; Shen, SY; Ke, CC; Zhu, FJ; Zhang, JL., Insight into the Effect of Pore-forming on Oxygen Transport Behavior in Ultra-Low Pt PEMFCs,[J]Journal Of The Electrochemical Society, 2019, 166(14), F1055-F1061
65. Shen, SY; Li, F; Zhao, LT; Fu, CH; Wei, GH; Yang, LJ; Zhang, JL, Communication-An Organic Solvent System-Assisted Electrodeposition of Highly Active Pt for the Oxygen Reduction Reaction,[J]Journal Of The Electrochemical Society, 2018, 165, 15, 13392-13394
66. Shen, SY; Li, F; Luo, LX; Guo, YG; Yan, XH; Ke, CC; Zhang, JL, DMF-Coordination Assisted Electrodeposition of Highly Active PtCo Alloy Catalysts for the Oxygen Reduction Reaction,[J]Journal Of The Electrochemical Society, 2018, 165, 2, D43-D49
67. Shen, SY; Guo, YG; Luo, LX; Li, F; Li, L; Wei, GH; Yin, JW; Ke, CC; Zhang, JL, Comprehensive analysis on the highly active and stable PdAu/C electrocatalyst for ethanol oxidation reaction in alkaline media,[J]Journal Of Physical Chemistry C, 2018, 122, 3, 1604-1611
68. Shen, SY; Guo, YG; Wei, GH; Luo, LX; Li, F; Li, L; Xia, GF; Zhang, JL, An exploration of Au submonolayer decorated Pd7Ir nanoparticles as highly active electrocatalyst for ethanol oxidation reaction in alkaline media,[J]Catalysis Science & Technology, 2018, 8, 14, 3465-3468
69. Shen, SY; Guo, YG; Wei, GH; Luo, LX; Li, F; Zhang, JL, A perspective on the promoting effect of Ir and Au on Pd toward the ethanol oxidation reaction in alkaline media,[J]Frontiers In Energy, 2018, 12, 4, 501-508
70. Wu, AM; Shen, SY; Yan, XH; Xia, GF; Zhang,Y; Zhu, FJ; Zhang, JL, CxNy particles@ N-doped porous graphene: a novel cathode catalyst with a remarkable cyclability for Li-O2 batteries,[J]Nanoscale, 2018, 10, 12763-12770
71. Tian, RX; Shen, SY; Zhu, FJ; Luo, LX; Yan, XH; Wei, GH; Zhang, JL, Icosahedral PtNi Alloy Nanocrystalline Electrocatalyst: from the Growth Mechanism to its Oxygen Reduction Activity,[J]Chemsuschem, 2018, 11, 6, 1015-1019
72. Zhang, Y; Zhang, WS; Shen, SY; Yan, XH; Wu, AM; Yin, JW; Zhang, JL, Hollow porous bowl-shaped lithium-rich cathode materials for lithium-ion batteries with exceptional rate capability and stability,[J]Journal Of Power Sources, 2018, 380, 164-173
73. Asghar, MR; Zhang, Y; Wu, AM; Yan, XH; Shen, SY; Ke, CC; Zhang, JL, Preparation of microporous Cellulose/PVDF-HFP membrane for lithium ion batteries by phase inversion method,[J]Journal Of Power Sources, 2018, 379, 197-205
74. Luo Liuxuan; Wei Guanghua; Shen Shuiyun; Zhu Fengjuan; Ke Changchun; Yan Xiaohui; Zhang Junliang, Facile Synthesis of Pt-Cu Alloy Nanodendrites as High-Performance Electrocatalysts for Oxygen Reduction Reaction,[J]Journal of Electrochemistry, 2018, 24, 6, 733-739
75. Shen, SY; Cheng, XJ; Wang, C; Yan, XH; Ke, CC; Yin, JW; Zhang, JL, Exploration of significant influences of the operating conditions on the local O2 transport in proton exchange membrane fuel cells (PEMFCs),[J]Physical Chemistry Chemical Physics, 2017, 19(38), 26221-26229.
76. Wang, C; Cheng, X.J; Lu, J.B; Shen, S.Y; Yan, X.H; Yin, J.W; Wei, G.H. and Zhang, J.L., The experimental measurement of local and bulk oxygen transport resistances in the catalyst layer of proton exchange membrane fuel cells,[J]The Journal Of Physical Chemistry Letters, 2017 , 8(23), 5848-5852
77. Zhang, Y; Zhang, WS; Shen, SY; Yan, XH; Wu, AM ; Wu, RF; Zhang, JL, An ingenious design of lamellar Li1.2Mn0.54Ni0.13Co0.13O2 hollow nanosphere cathode for advanced lithium-ion batteries,[J]Electrochimica Acta, 2017, 256, 316-324
78. Wang, C;Zhang, QL; Shen SY; Yan XH; Zhu, FJ; Cheng XJ and  Zhang, JL, The respective effect of under-rib convection and pressure drop of flow fields on the performance of PEM fuel cells,[J]Scientific Reports, 2017, 7, 43447
79. Wang, C;Lu, JB; Zhang, QL; Shen SY; Yan XH; Zhu, FJ; Cheng XJ and  Zhang, JL, Effect of height/width-tapered flow fields on the cell performance of polymer electrolyte membrane fuel cells,[J]International Journal Of Hydrogen Energy, 2017, 42(36), 23107-23117
80. Luo, LX; Zhu, FJ; Tian RX; Li, L; Shen, SY; Yan, XH; Zhang, JL, Composition-graded PdxNi1-x nanospheres with Pt monolayer shells as high-performance electrocatalysts for oxygen reduction reaction,[J]ACS Catalysis, 2017, 7, 5420-5430
81. Anwar, MT; Yan, XH; Shen, SY; Husnain, N; Zhu, FJ ; Luo, LX; Zhang, JL, Enhanced durability of Pt electrocatalyst with tantalum doped titania as catalyst support,[J]International Journal of Hydrogen Energy, 2017, 42, 52, 30750-30759
82. Li, WK; Zhang, QL; Wang, C; Yan, XH; Shen, SY; Xia, GF; Zhu, FJ; Zhang, JL, Experimental and numerical analysis of a three-dimensional flow field for PEMFCs,[J]Applied Energy, 2017, 195, 278-288
83. Zhang, Y; Zhang, WS; Shen, SY; Yan, XH; Wu, RF; Wu, AM; Lastoskie, C; Zhang, JL, A sacrificial template strategy toward hollow LiNi1/3Co1/3Mn1/3O2 nanospheres cathode for advanced lithium-ion batteries,[J]ACS OMEGA, 2017, 2, 11, 7593-7599
84. Wu, AM; Xia, GF; Shen, SY; Yin, JW; Mao, Y; Bai, QY; Xie, JY; Zhang, JL, Recent progress in non-aqueous lithium-air batteries,[J]Acta Physico-Chimica Sinica, 2016, 32, 8, 1866-1879
85. Wu, RF; Shen, SY; Xia, GF; Zhu, FJ; Lastoskie, C; Zhang, JL, Soft-templated self-assembly of mesoporous anatase TiO2/Carbon composite nanospheres for high-performance lithium ion batteries,[J]ACS Applied Materials & Interfaces, 2016, 8, 31, 19968-19978
86. Luo, LX; Shen, SY; Zhu, FJ; Zhang, JL, Formic acid oxidation by pd monolayers on Pt3Ni nanocubes,[J]Acta Physico-Chimica Sinica, 2016, 32, 337-342
87. Meng, YQ; Wang, C; Zhang, QL; Shen, SY; Zhu, FJ; Yang, H; Zhang, JL, The effects of cathode platinum loading and operating backpressure on PEMFC performance,[J]Acta Physico-Chimica Sinica, 2016, 32, 6, 1460-1466
88. Cui, Z; Wang, C; Shen, SY; Jiang, FJ; Zhang, JL, Pt/C modified proton exchange membrane for improved fuel cell performance,[J]Journal Of Electrochemistry, 2015, 21(3), 273-278
89. Xia, GF; Shen, SY; Zhu, FJ; Xie, JY; Hu, YF; Zhu, K; Zhang, JL, Effect of oxygen-containing functional groups of carbon materials on the performance of Li-O2 batteries,[J]Electrochemistry Communications, 2015, 60, 26-29
90. Wu, RF; Xia, GF; Shen, SY; Zhu, FJ; Jiang, FJ; Zhang, JL, In-situ growth of LiFePO4 nanocrystals on interconnected carbon nanotubes/mesoporous carbon nanosheets for high-performance lithium ion batteries,[J]Electrochimica Acta, 2015, 153 , 334-342
91. Hu, CY; Yang; DP; Zhu, FJ; Jiang, FJ; Shen, SY; Zhang, JL, Enzyme-labeled Pt@BSA nanocomposite as a facile electrochemical biosensing interface for sensitive glucose determination,[J]ACS Applied Materials & Interfaces, 2014, 6 (6), 4170-4178
92. Wu, RF; Xia, GF; Shen, SY; Zhu, FJ; Jiang FJ, Zhang, JL, Soft-templated LiFePO4/mesoporous carbon nanosheets (LFP/meso-CNSs) nanocomposite as the cathode material of lithium ion batteries,[J]RSC Advances, 2014, 4 (41), 21325-21331
93. Shen, SY; Zhao, TS; One-step polyol synthesis of Rh-on-Pd bimetallic nanodendrites and their electrocatalytic properties for ethanol oxidation in alkaline media,[J]Journal of Materials Chemistry A, 2013, 1 (3), 906-912
94. Shen, SY; Zhao, TS, Product analysis of the ethanol oxidation on palladium-based catalysts in an anion-exchange membrane fuel cell environment,[J]International Journal of Hydrogen Energy, 2012, 37 (1), 575-582
95. Wu, QX; Shen, SY; He YL; Zhao, TS, Effect of water concentration in the anode catalyst layer on the performance of direct methanol fuel cells operating with neat methanol,[J]International Journal of Hydrogen Energy, 2012, 37 (7), 5958-5968
96. Li, YS; Zhao, TS; Xu, JB; Shen, SY; Yang, WW, Effect of the cathode micro-porous layer on performance of anion-exchange membrane direct ethanol fuel cells,[J]Journal of Power Sources, 2011, 196 (4), 1802-1807
97. An, L; Zhao, TS; Shen, SY; Wu, QX; Chen, R, An alkaline direct oxidation fuel cell with non-platinum catalysts capable of converting glucose to electricity at high power output,[J]Journal of Power Sources, 2011, 196 (1), 186-190
98. Shen, SY; Zhao, TS; Xu, JB, High performance of carbon supported ternary PdIrNi catalyst for ethanol electro-oxidation in anion-exchange membrane direct ethanol fuel cells,[J]Energy & Environmental Science, 2011, 4 (4), 1428-1433
99. Shen, SY; Zhao, TS; Xu, JB; Li, YS, Synthesis of PdNi catalysts for the oxidation of ethanol in alkaline direct ethanol fuel cells,[J]Journal of Power Sources, 2010, 195 (4), 1001-1006
100. Shen, SY; Zhao, TS; Xu, JB; Li, YS, Carbon-supported PtRh catalysts for ethanol oxidation in alkaline direct ethanol fuel cells,[J]International Journal of Hydrogen Energy, 2010, 35 (23), 12911-12917
101. Zhao, TS; Li YS; Shen, SY, Anion-exchange membrane direct ethanol fuel cells: status and perspectives,[J]Frontiers of Energy and Power Engineering, 2010, 4 (4), 443-458
102. Shen, SY; Zhao, TS; Xu, JB, Carbon supported bimetallic PdIr catalysts for ethanol oxidation in alkaline media,[J]Electrochimica Acta, 2010, 55 (28), 9179-9184
103. Xu, JB; Zhao, TS; Shen, SY; Li, YS, Stabilization of the palladium ethanol-oxidation electrocatalyst with alloyed gold,[J]International Journal of Hydrogen Energy, 2010, 35 (13), 6490-6500
104. Xu, JB; Zhao, TS; Yang WW; Shen, SY, Effect of surface composition of Pt-Au alloy cathode catalyst on the performance of direct methanol fuel cells,[J]International Journal of Hydrogen Energy, 2010, 35 (16), 8699-8706
105. An, L; Zhao, TS; Shen, SY; Wu, QX; Chen, R, Performance of a direct ethylene glycol fuel cell with an anion-exchange memebrane,[J]International Journal of Hydrogen Energy, 2010, 35 (9), 4329-4335
106. Wang, ZH; Sun, KN; Shen, SY; Zhou, XL; Qiao JS; Zhang, NQ, Effect of co-sintering temperature on the performance of SOFC with YSZ electrolyte thin films fabricated by dip-coating method,[J]Journal of Solid State Electrochemistry, 2010, 14 (4), 637-642
107. Wang, ZH; Sun, KN; Shen, ZM; Shen, SY; Zhang, NQ, Preparation of yttria-stabilized zirconia (YSZ) films by an electrophoretic deposition method,[J]Chinese Journal of Materials Research, 2009, 23(1), 108-112
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中文专著：《能源材料：原理与应用》

英文专著：《Low Platinum Fuel Cell Technologies》

软件版权登记及专利

1. 章俊良，程晓静，闫晓晖，沈水云，夏国锋，殷洁炜，王超，朱凤鹃，测量燃料电池催化层中碳载体对氧气传质影响特征的方法，2022/03，ZL201910858812.2。
2. 章俊良;李凡;沈水云;范月恒;赵路甜;郭杨格，有机体系中电沉积制备的Pt-M金属合金催化剂，2021/05，ZL201910163691.X。
3. 章俊良，王超，闫晓晖，沈水云，夏国锋，殷洁炜，程晓静，朱凤鹃，测量离聚物对局域传质阻力影响特征的方法，2020/11，中国发明专利，ZL201811553801.5。
4. 章俊良，夏国锋，沈水云，朱凤鹃，吴若飞，解晶莹，毛亚，一种片状多孔纳米材料的制备方法，2017/08, 中国发明专利，ZL201610074891.4。
5. 章俊良，罗柳轩，朱凤娟，胡宸溢，沈水云，李琳，田仁秀，球形核壳状PdxNi1‑x@Pt/C催化剂及其制备，2017/03, 中国发明专利，ZL201610856200.6。
6. 章俊良，王超，程晓静，张卿雷，沈水云，罗柳轩，胡宸溢，朱凤鹃，测量燃料电池催化层中氧气有效扩散系数的方法，2017/01, 中国发明专利，ZL201610737646.7。
7. 章俊良，王超，张卿雷，程晓静，沈水云，朱凤鹃，胡宸溢，罗柳轩，亲水/疏水复合型多层膜电极及其制备方法，2016/12, 中国发明专利，ZL201610717402.2。
8. 殷洁炜，章俊良，夏国锋，沈水云，朱凤鹃 ，干氢测试条件下的质子交换膜燃料电池单电池测试装置，2016/12, 中国发明专利，ZL201610657049.3。
9. 章俊良，吴爱明，夏国锋，吴若飞，沈水云，张尧，朱凤鹃，锂空气电池多孔隔膜材料的制备方法，2016/12, 中国发明专利，ZL201610615341.9。
10. 章俊良，符策煌，吴若飞，沈水云，夏国锋，张尧，吴爱明，朱凤鹃，多孔碳支撑的四氧化三锰纳米颗粒复合材料及其制备方法，2016/11, 中国发明专利，ZL201610532248.1。
11. 章俊良，张尧，吴若飞，吴爱明，沈水云，夏国锋，殷洁炜，空心球状纳米结构的三元正极材料及其制备方法，2016/10, 中国发明专利，ZL201610527926.5。
12. 章俊良，吴若飞，夏国锋，沈水云，符策煌，吴爱明，张尧，朱凤鹃，石墨烯支撑的碳包覆硅纳米颗粒复合电极材料的制备方法，2016/10, 中国发明专利，ZL201610527947.7。
13. 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。
14. 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。
15. 章俊良，夏国锋，蒋峰景，吴若飞，沈水云，朱凤娟，三维多孔材料的制备方法，2015/10, 中国发明专利，ZL201310659167.4。
16. 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，2015/05, 中国发明专利，ZL201410820921.2。
17. 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，2015/05, 中国发明专利，ZL201410820939.2。
18. 章俊良，朱凤鹃，罗柳轩，沈水云，夏国锋，一种碳固载纳米铂催化剂的制备方法，2015/04, 中国发明专利，ZL201410820940.5。

荣誉奖励

• 2020年上海市技术发明奖一等奖
• 2021年上海交通大学烛光奖一等奖
• 2020年度教学成果特等奖（排3）
• 2016年本科招生工作先进个人
• 2016年度上海交通大学优秀班主任
• 2015年度“李兰馨青年教师奖”