教师个人信息表
姓名沈培康性别男

出生年月政治面貌中国党员
籍贯浙江职称教授
学历博士研究生学位博士
联系电话**邮政编码530004
Emailpkshen@gxu.edu.cn
QQ微信
通讯地址广西南宁大学东路100号广西大学可再生能源材料协同创新中心
所在学院可再生能源材料协同创新中心导师类型校外导师
导师类别博士后合作导师, 博士研究生导师, 硕士研究生导师
指导学科一门类：工学一级学科：化学工程与技术二级学科：化学工程
指导学科二门类：工学一级学科：材料科学与工程二级学科：材料物理与化学
学习和工作经历1982年初毕业于厦门大学电化学专业并留校任教。1989年赴英国工作学习，1992年获英国Essex大学博士学位。在国外工作期间曾与英国的Rolls Royce公司合作研究潜艇燃料电池、与Lion公司合作研究酒精传感器、受英国工贸部（DTI）基金资助研究直接甲醇燃料电池催化剂、得到英国研究经费资助并与挪威的Kvaerner FSSL公司合作研制海水电池等。自2001年底受聘中山大学物理科学与工程技术学院教授以来，建立了稳定的研究团队。已承担国家863项目、国家基金委-广东省联合项目、国际重大合作项目、国家自然科学基金项目、广东省重大科研项目、广东省教育部产学研项目、广州市重点科技项目及企业合作项目等各类基础研究和攻关项目四十余项。
学术兼职国际电化学学会会员、英国化学会会员、特许化学家、美国化学学会会员、美国电化学学会会员、中国电化学委员会燃料电池分会主席。
主讲课程《材料化学》、《电化学》
主要研究方向（1）材料物理与化学，包括电化学基础和技术、微观电化学；（2）新型能源技术，包括燃料电池和高能电源技术；（3）纳米材料和应用技术，包括纳米功能材料和器件。
主持（或参与）的主要科研项目已承担国家863项目、国家基金委-广东省联合项目、国际重大合作项目、国家自然科学基金项目、广东省重大科研项目、广东省教育部产学研项目、广州市重点科技项目及企业合作项目等各类基础研究和攻关项目四十余项。沈培康教授注重国内外的学术交流及合作，注重产学研结合，瞄准国家需求，非常重视成果的产业化转化，已经扶持国内外两个燃料电池企业进行批量生产燃料电池发电系统，与上海汽车有限公司合作进行燃料电池催化剂的批量生产、与广州汽车集团公司进行电动汽车能源材料和技术的创新研究。在国际合作方面，目前正承担美国通用汽车公司、日本Shin Kobe公司、丹麦政府等的合作项目进行新能源关键材料研究和产业化。

近五年承担的重要项目列表：
1. 2015.8-2020.8，广东省团队项目，300万。
2. 2015.1.1-2019.12.30，国家重大科学研究计划《面向车用燃料电池的纳米-介观-宏观多级结构的电催化体系的研究--新型多级结构高性能膜电极的构建及应用》，项目编号：2015CB932304，576万。
3. 2014.7.1-2017.6.30，广汽《三维多级孔类石墨烯及硫电极材料应用于高稳定锂-硫电池的示范应用研究》，项目编号：XW6，150万。
4. 2014.7.1-2017.6.30，广汽《基于三维多级孔类石墨烯材料的燃料电池新型催化剂和膜组装电极》，项目编号：XW6，300。
5. 2013.01-2017.12，国家基金委国际重大合作项目《新型多元金属碳化物纳米结构能源材料及功能调控研究》，项目编号：**，280万。
6. 2010.11-2015.11，日本新神户公司项目《铅酸电池正极集电体的电化学行为研究》，600万日元+800万日元。
7. 2011.1-2014.12，国家基金委-广东联合重点项目《低温燃料电池催化材料的共性物理化学问题和催化本质研究》，项目编号：U**，190万。
8. 2011.1-2013.12，国家自然科学基金项目《碳化钨（钒、钼）基催化材料的定域制备及电催化增强机理研究》，项目编号：**，37万。
9. 2010.7-2012.6，国家863重点《5KW级燃料电池关键材料和系统集成技术开发》，项目编号：2009AA034400，83.3万。
10. 2009.11-2013.11，美国通用《碳化钨基Pt或非Pt氧还原催化剂》，20万美元。

取得的主要成果已在Chem. Rev.; Chem. Soc. Rev.; J. Am. Chem. Soc.; Adv. Mater.; Adv. Funct. Mater.; Energy Environ. Sci.; Adv. Energy Mater., ACS Nano, Chem. Commun.; J. Phys. Chem.; J. Mater. Chem.;Electrochem. Commun.; J. Power Sources 等期刊发表学术论文超过300篇，其中SCI论文超过260篇（他引超7000次）、累计ESI（Highly Cited Papers, 1%）论文22篇，其中0.1% Hot Papers 2篇，H因子49。中国高被引学者能源领域列第2位。另外，参与四本英文专著编写、申请和授权发明专利四十余件。2002年获国务院政府特殊津贴、2011年获广东省科学技术一等奖，2013年获国家自然科学奖二等奖。

近五年文章列表：（IF大于5）
2015: Cited 1565 times.
1. Shuang Xu, Jun Gao, Linlin Wang, Kan Kan, Yu Xie, Pei Kang Shen, Li Li, Keying Shi, Role of the heterojunctions in In2O3-composite SnO2 nanorod sensors and their remarkable gas-sensing performance for NOx at room temperature, Nanoscale, 7, 14643-14651 (2015). IF=7.394
2. Yanshuo Jin, Pei Kang Shen, Nanoflower-like metallic conductive MoO2 as a high-performance non-precious metal electrocatalyst for the hydrogen evolution reaction, J. Mater. Chem. A, 3, 20080-20085 (2015). IF=7.443
3. Zaoxue Yan, Mingmei Zhang, Jimin Xie, Pei Kang Shen, An ultrastable bimetallic carbide as platinum electrocatalyst support for highly active oxygen reduction reaction, J. Power Sources, 295, 156–161 (2015). IF=6.217
4. Jin Zhang, Shanfu Lu, Yan Xiang, Pei Kang Shen, Jian Liu, San Ping Jiang,Carbon-Nanotubes-Supported Pd Nanoparticles for Alcohol Oxidations in Fuel Cells: Effect of Number of Nanotube Walls on Activity, ChemSusChem, 8, 2956–2966 ( 2015). IF=7.657
5. Zaoxue Yan, Jimin Xie, Pei Kang Shen, Hollow molybdenum carbide sphere promoted Pt electrocatalyst for oxygen reduction and methanol oxidation reaction, J. Power Sources 286, 239-246 (2015). IF=6.217
6. P.K. Shen, C.Y. He, S.Y. Chang, X.D. Huang, Z.Q. Tian, Magnéli phase Ti8O15 nanowires as conductive carbon-free energy materials to enhance the electrochemical activity of palladium nanoparticles for direct ethanol oxidation, J. Mater. Chem. A, 3, 14416-14423 (2015). IF=7.443
7. M. Chen, X.L. Jiang, H. Yang and P.K. Shen, Performance improvement of air electrode for Li/air batteries by hydrophobicity adjustment, J. Mater. Chem. A, 3, 11874–11879 (2015). IF=7.443
8. J.H. Cheng, J.L. Zhu, X.L. Wei, P.K. Shen, Ce2O2S anchored on graphitized carbon with tunable architectures as a new promising anode for Li-ion batteries, J. Mater. Chem. A, 3, 10026 – 10030 (2015). IF=7.443
9. Y.Y. Li,, H.Y. Zhang, P.K. Shen, Ultrasmall metal oxide nanoparticles anchored on three-dimensional hierarchical porous gaphene-like networks as anode for high-performance lithium ion batteries, Nano Energy, 13,563-572 (2015). IF=10.325
10. J.L. Zhu, G.Q. He, P.K. Shen, A cobalt phosphide on carbon decorated Pt catalyst with excellent electrocatalytic performance for direct methanol oxidation, J. Power Sources, 275, 279-283 (2015). IF=6.217
11. Y. Cheng, C.W. Xu, L.C. Jia, J.D. Gale, L.L. Zhang, C. Liu, P.K. Shen, S.P. Jiang, Pristine carbon nanotubes as non-metal electrocatalysts for oxygen evolution reaction of water splitting, Appl. Catal. B: Environ., 163, 96–104 (2015). IF=7.435
12. J.H Cheng, Y.Y. Li, X.D. Huang, Q.Q Wang, A. Mei, P.K. Shen, Highly stable electrocatalysts supported on nitrogen-self-doped three-dimensional graphene-like networks with hierarchical porous structure, J. Mater. Chem. A, 3, 1492–1497 (2015). IF=7.443
13. W.Y. Yuan, Y. Cheng, P.K. Shen, C.M. Li, S.P. Jiang, Significance of wall number on the carbon nanotube support-promoted electrocatalytic activity of Pt NPs towards methanol/formic acid oxidation reactions in direct alcohol fuel cells, J. Mater. Chem. A, 3, 1961–1971 (2015). IF=7.443
14. X. Wen, X.L. Wei, L.W. Yang, P.K. Shen, Self-assembled FeS2 cubes anchored on reduced graphene oxide as anode material for lithium ion batteries, J. Mater. Chem. A, 3, 2090–2096 (2015). IF=7.443
15. C.Y. He, S.Y. Chang, X.D. Huang, Q.Q. Wang, A. Mei, P.K. Shen, Direct synthesis of pure single-crystalline magnéli phase Ti8O15 nanowires as conductive carbon-free material for electrocatalysis, Nanoscale, 7, 2856-2861 (2015). IF=7.394
16. Z.X. Yan, M.M. Zhang, J.M. Xie, J.J. Zhu, S.P. Shen, A bimetallic carbide Fe2MoC promoted Pd electrocatalyst with performance superior to Pt/C towards the oxygen reduction reaction in acidic media, Appl. Catal. B: Environ., 165, 636–641 (2015). IF=7.435
17. X. Ding S.B. Yin, K. An, L. Luo, N. Shi, Y.H. Qiang, S. Pasupathi, B. G. Pollet, P.K. Shen, FeN stabilized FeN@Pt core–shell nanostructures for oxygen reduction reaction, J. Mater. Chem. A, 3, 4462–4469 (2015). IF=7.443

2014: Cited 1543 times.
18. Y. Cheng, C.W. Xu, P. K. Shen, S. P. Jiang, Effect of nitrogen-containing functionalization on the electrocatalytic activity of PtRu nanoparticles supported on carbon nanotubes for direct methanol fuel cells, Appl. Catal. B: Environ., 158–159, 140–149 (2014). IF=7.435
19. J. Zhang, Y. Cheng, S.F. Ku, L.C. Jia, P.K. Shen, S.P. Jiang, Significant promotion effect of carbon nanotubes on the electrocatalytic activity of supported Pd NPs for ethanol oxidation reaction of fuel cells: the role of inner tubes，Chem. Commun. 50, 13732-13734 (2014). IF=6.834
20. Z.S. Li, S. Ji, B.G. Pollet, P.K. Shen, Co3W3C promoted Pd catalyst exhibiting competitive performance to Pt/C catalyst towards the oxygen reduction reaction, Chem. Commun., 50, 566-568 (2014). IF=6.834
21. W.Y. Yuan, P.K. Shen, S.P. Jiang, Controllable synthesis of graphene supported MnO2 nanowires via self-assembly for enhanced water oxidation in both alkaline and neutral solutions, J. Mater. Chem. A, 2, 123-129 (2014). IF=7.443
22. J. Gao, L.L. Wang, K. Kan, S. Xu, L.Q. Jing, S.Q. Liu, P.K. Shen, L. Li, K.Y. Shi, One-step synthesis of mesoporous Al2O3-In2O3 nanofibres with remarkable gas-sensing performance to NOx at room temperature, J. Mater. Chem. A, 2, 949-956 (2014). IF=7.443
23. J.L. Zhu, Y.Y. Li, S. Kang, X.L. Wei, P.K. Shen, One-step synthesis of Ni3S2 nanoparticles wrapped by in situ generated nitrogen-self-doped graphene sheets with highly improved electrochemical properties in Li-ion batteries, J. Mater. Chem. A, 2 (9), 3142 – 3147 (2014). IF=7.443
24. Y.Y. Li, Q.W. Zhang, J.L. Zhu, X.L. Wei, P.K. Shen, An extremely stable MnO2 anode incorporated with 3D porous graphene-like networks for lithium-ion batteries, J. Mater. Chem. A, 2 (9), 3163 – 3168 (2014). IF=7.443
25. C.Y. He, J.J. Zhang, P.K. Shen, Nitrogen-self-doped graphene-based non-precious metal catalyst with superior performance to Pt/C catalyst toward oxygen reduction reaction, J. Mater. Chem. A, 2 (9), 3231 - 3236 (2014). IF=7.443
26. Z.X. Yan, G.Q. He, P.K. Shen, Z.B. Luo, J.M. Xie, M. Chen, MoC-graphite composite as Pt electrocatalyst support for highly active methanol oxidation and oxygen reduction reaction, J. Mater. Chem. A, 2, 4014–4022 (2014). IF=7.443
27. Y.Y. Li, Z.S. Li, Q.W. Zhang, P.K. Shen, Sulfur-infiltrated three-dimensional graphene-like material with hierarchical pores for highly stable lithium-sulfur batteries, J. Mater. Chem. A, 2(13), 4528–4533 (2014). IF=7.443
28. L.F. Dang, G. Zhang, K. Kan, Y.F. Lin, F.Q. Bai,L.Q. Jing, P.K. Shen, L. Li, K.Y. Shi, Heterostructured Co3O4/PEI-CNTs Composite: Fabrication, Characterization and CO Gas Sensors at Room Temperature, J. Mater. Chem. A, 2, 4558-4565 (2015). IF=7.443
29. Y.L. Ge, K. Kan, Y. Yang, L. Zhou, L.Q. Jing, P.K. Shen, L. Li, K.Y. Shi, Highly mesoporous hierarchical nickel and cobalt double hydroxide composite: fabrication, characterization and ultrafast NOx gas sensors at room temperature, J. Mater. Chem. A, 2(14), 4961-4969 (2014). IF=7.443
30. C.Y. He, P.K. Shen, Pt loaded on truncated hexagonal pyramid WC/graphene for oxygen reduction reaction, Nano Energy, 8, 52-61 (2014). IF=10.325
31. Z.S. Li, Y.Y. Li, S. P. Jiang, G.Q. He, P. K. Shen, Novel graphene-like nanosheet supported highly active electrocatalysts with ultralow Pt loadings for oxygen reduction reaction, J. Mater. Chem. A, 2, 16898–16904 (2014). IF=7.443
32. J.L. Zhu, S.P. Jiang, R.H. Wang, K.Y. Shi, P.K. Shen, One-pot synthesis of a nitrogen and phosphorus dual-doped carbon nanotube array as a highly e?ective electrocatalyst for the oxygen reduction reaction, J. Mater. Chem. A, 2, 15448-15453 (2014). IF=7.443

2013: Cited 1278 times.
33. Y.Y. Li, Z.S. Li, P.K. Shen, Simultaneous formation of ultrahigh surface area and three-dimensional hierarchical porous graphene-like networks for fast and highly stable supercapacitors, Adv. Mater. 25, 2474-2480 (2013). IF=17.493
34. J.L. Zhu, C.Y. He, Y.Y. Li, S. Kang, P.K. Shen, One-step synthesis of boron and nitrogen-dual-self-doped graphene sheets as non-metal catalysts for oxygen reduction reaction, J. Mater. Chem. A, 1, 14700-14705 (2013). IF=7.443
35. C.Y. He, R.H. Wang, H.G. Fu, P.K. Shen, Nitrogen-self-doped graphene as a high capacity anode material for lithium-ion batteries, J. Mater. Chem. A, 1, 14586-14591 (2013). IF=7.443
36. J. Zeng, B.B. He, K. Lamb, R. De Marco, P.K. Shen, S.P. Jiang, Anhydrous phosphoric acid functionalized sintered mesoporous silica nanocomposite proton exchange membranes for fuel cells, ACS Appl. Mater. Interfaces, 5, 11240?11248 (2013). IF=6.723
37. Z. X. Yan, M. M. Zhang, J. M. Xie, P.K. Shen, Vanadium carbide and graphite promoted Pd electrocatalyst for ethanol oxidation in alkaline media, J. Power Sources, 243, 336-342 (2013). IF=5.211
38. J. Zeng, B.B. He, K. Lamb, R. De Marco, P.K. Shen, S.P. Jiang, Phosphoric acid functionalized pre-sintered meso-silica for high temperature proton exchange membrane fuel cells, Chem. Commun., 49, 4655—4657 (2013). IF=6.834
39. Z.X. Yan, G.Q. He, M. Cai, H. Meng, P.K. Shen, Formation of tungsten carbide nanoparticles on graphitized carbon to facilitate the oxygen reduction reaction, J. Power, Sources, 242, 817-823 (2013). IF=6.217
40. C.Y. He, Z.S. Li, M.L. Cai, M. Cai, J.Q. Wang, Z.Q. Tian, X. Zhang, P.K. Shen, A strategy for mass production of self-assembled nitrogen-doped graphene as catalytic materials, J. Mater. Chem. A, 1, 1401–1406 (2013). IF=7.443
41. C. Y. He, S. P. Jiang, P. K. Shen, Large-scale and rapid synthesis of disk-shaped and nano-sized graphene, Sci. Rep-UK, 3, 2144 (2013). IF=5.578
42. Z.X. Yan, M. Cai, P. K. Shen, Nanosized tungsten carbide synthesized by a novel route at low temperature for high performance electrocatalysis, Sci. Rep-UK, 3, 1646 (2013). IF=5.578

2012: Cited 1043 times.
43. H. W. Zhang, P.K. Shen, Recent development of polymer electrolyte membranes for fuel cells, Chem. Rev. 112, 2780?2832 (2012). IF=46.568
44. H. W. Zhang, P.K. Shen, Advances in the high performance polymer electrolyte membranes for fuel cells, Chem. Soc. Rev., 41, 2382–2394 (2012). IF=33.383
45. J.J. Cai, Z.S. Li, P.K. Shen, Porous SnS nanorods/carbon hybrid materials as highly stable and high capacity anode for Li-ion batteries, ACS Appl. Mater. Interfaces, 4, 4093?4098 (2012). IF=6.723
46. G.Q. He, Z.X. Yan, M. Cai, P.K. Shen, M.-R. Gao, H.-B. Yao, S.-H. Yu, Ion-exchange-assisted synthesis of Pt-VC nanoparticles loaded on graphitized carbon: A high-performance nanocomposite electrocatalyst for oxygen-reduction reactions, Chem-Eur. J. 18, 8490 – 8497 (2012). IF=5.731
47. R.H. Wang, Y. Xie, K.Y. Shi, J.Q. Wang, C.G. Tian, P.K. Shen, H.G. Fu, Small-sized and contacting Pt-WC nanostructures on graphene as highly efficient anode catalysts for direct methanol fuel cells, Chem-Eur. J. 18, 7443 – 7451 (2012). IF=5.731
48. Z.X. Yan, H. Meng, P.K. Shen, R.H. Wang , L. Wang , K.Y. Shi, H.G. Fu, A facile route to carbide-based electrocatalytic nanocomposites, J. Mater. Chem., 22, 5072-5079 (2012). IF=7.443
49. J.L. Lu, Z.H. Li, S. P. Jiang, P.K. Shen, L.Li, Nanostructured tungsten carbide/carbon composite synthesized by a microwave heating method as supports of platinum catalysts for methanol oxidation, J. Power Sources, 202, 56-62 (2012). IF=5.211
50. X. M. Ma, H. Meng, M. Cai, P.K. Shen, Bimetallic carbide nanocomposite enhanced Pt catalyst with high activity and stability for the oxygen reduction reaction, J. Am. Chem. Soc. 134, 1954-1957 (2012). IF=12.113
51. Z. X. Yan, M. Cai, P. K. Shen, Low temperature formation of porous graphitized carbon for electrocatalysis, J. Mater. Chem., 22, 2133-2137 (2012). IF=7.443

2011：
52. Z. Q. Tian, S. H. Lim, C. K. Poh, Z. Tang, Z. Xia, Z. Luo, P.K. Shen, D. Chua, Y. P. Feng, Z. Shen, J. Lin, A highly order-structured membrane electrode assembly with vertically aligned carbon nanotubes for ultra-low Pt loading PEM fuel cells, Adv. Energy Mater.,1, 1205-1214, (2011). IF=16.146
53. G. Wu, M. Nelson, S. G. Ma, H. Meng, G. F. Cui, P.K. Shen, Synthesis of nitrogen-doped onion-like carbon and its use in carbon-based CoFe binary non-precious-metal catalysts for oxygen-reduction, Carbon, 49, 3972-3982 (2011). IF=5.868
54. Z. X. Yan, M. Cai, P. K. Shen, An ion exchange route to produce carbon supported nanoscale vanadium carbide for electrocatalysis, J. Mater. Chem., 21, 19166-19170 (2011). IF=7.443
55. S.G. Chen, Z. D. Wei, L. Guo, W. Ding, L.C. Dong, P.K. Shen, X.Q. Qi, L. Li, Enhanced dispersion and durability of Pt nanoparticles on a thiolated CNT support， Chem. Commun., 47, 10984–10986 (2011). IF=6.718
56. Y. Sun, H. Cui, L. Gong, J. Chen, P. K. Shen, C. X. Wang, Field nanoemitter: One-dimension Al4C3 ceramics, Nanoscale, 3, 2978-2982 (2011). IF=6.925
57. H. Meng, F. Xie, J. Chen, P. K. Shen, Electrodeposited palladium nanostructure as novel anode for direct formic acid fuel cell, J. Mater. Chem. 21, 11352 - 11358 (2011). IF=6.626
58. G. Q. He, Z. X. Yan, X. M. Ma, H. Meng, P.K. Shen, C. X. Wang, A universal method to synthesize nanoscale carbides as electrocatalyst supports towards oxygen reduction reaction, Nanoscale, 3, 3578-3582 (2011). IF=6.925
59. G. F. Cui, P.K. Shen, H. Meng, J. Zhao, G. Wu, Tungsten carbide as supports for Pt electrocatalysts with improved CO tolerance in methanol oxidation, J. Power Sources, 196, 6125–6130 (2011). IF=5.211
60. H. Meng, C. X. Wang, P.K. Shen, G. Wu, Palladium thorn clusters as catalysts for electrooxidation of formic acid, Energy Environ. Sci., 4, 1522–1526 (2011). IF=20.523
61. Y. Sun, H. Cui, L. Gong, J. Chen, J. She, Y. Ma, P.K. Shen, C. X. Wang, Carbon-in-Al4C3 nanowire superstructures for field emitters, ACS Nano, 5, 932–941 (2011). IF=12.881
62. S. B. Yin, M. Cai, C. X. Wang, P.K. Shen, Tungsten carbide promoted Pd–Fe as alcohol-tolerant electrocatalysts for oxygen reduction reactions, Energy Environ. Sci., 4, 558-563 (2011). IF=20.523
63. H. Meng, F.Y. Xie, J. Chen, S.H. Sun, P. K. Shen, Morphology controllable growth of Pt nanoparticles/nanowires on carbon powders and its application as novel electro-catalyst for methanol oxidation, Nanoscale, 3, 5041-5048, (2011). IF=6.925

2010：
64. Y. X. Zhou, H. B. Yao, Y. Wang, H. L. Liu, M. R. Gao, P.K. Shen, S. H. Yu, Hierarchical hollow Co9S8 microspheres: solvothermal synthesis, magnetic, electrochemical, and electrocatalytic properties, Chem. -Eur. J. 16, 12000 – 12007 (2010). IF=5.696
65. L. Q. Wang, V. Bambagioni, M. Bevilacqua, C. Bianchini, J. Filippi, A. Lavacchi, A. Marchionni, F. Vizza, X. Fang, P. K. Shen, Sodium borohydride as an additive to enhance the performance of direct ethanol fuel cells, J. Power Sources, 195, 8036-8043 (2010). IF=5.211
66. V. Bambagioni, M. Bevilacqua, C. Bianchini, J. Filippi, A. Lavacchi, A. Marchionni, F. Vizza, P.K. Shen, Self-sustainable production of hydrogen, chemicals, and energy from renewable alcohols by electrocatalysis, ChemSusChem, 3, 851-855 (2010). IF=7.117
67. Z. X. Yan, Z. F. Hu, C. Chen, H. Meng, P.K. Shen, H. B. Ji, Y. Z. Meng, Hollow carbon hemispheres supported palladium electrocatalyst at improved performance for alcohol oxidation, J. Power Sources 195, 7146–7151 (2010). IF=5.211
68. L. Tian, H. L. Zou, J. X. Fu, X. F. Yang, Y. Wang, H. L. Guo, X. H. Fu, C. L. Liang, M. M. Wu, P.K. Shen, Q. M. Gao, Topotactic conversion route to mesoporous quasi-single-crystalline Co3O4 nanobelts with optimizable electrochemical performance, Adv. Funct. Mater. 20, 617–623 (2010). IF=11.805
69. S. Q. Song, S. B. Yin, Z. H. Li, P. K. Shen, R. W. Fu, D. C. Wu, Effect of pore diameter of wormhole like mesoporous carbon supports on the activity of Pt nanoparticles towards hydrogen electrooxidation, J. Power Sources 195, 1946-1949 (2010). IF=5.211
70. X. Fang, L. Q. Wang, P. K. Shen, G. F. Cui, C. Bianchini, An in situ Fourier transform infrared spectroelectrochemical study on ethanol electrooxidation on Pd in alkaline solution, J. Power Sources 195, 1375-1378 (2010). IF=5.211
数据更新日期2015-12-22填报责任人尹诗斌
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