吴仁兵

吴仁兵

教授

办公地点:淞沪路2005号江湾校区化学楼A6022

邮箱:rbwu@fudan.edu.cn

教育和工作经历

  • 2019 年12月~至今,复旦大学 材料科学学系,教授,博导

  • 2015年10月~2019年11月,复旦大学 材料科学学系,青年研究员,博导

  • 2011年~2015年,新加坡南洋理工大学 机械与宇航学院/南洋环境与水资源研究院,博士后/研究员

  • 2007年~2008年,美国犹他大学 材料科学与工程专业,国家公派联合培养

  • 2004年~2009年,浙江大学 材料科学与工程专业,博士

  • 2000年~2004年,合肥工业大学 化学工程与工艺专业,本科

主讲课程

  • 智能材料与器件漫谈(本科生)

  • 新型能源材料(本科生)

主要荣誉和奖励

  • Clarivate Analytics(科睿唯安)全球高被引学者

  • 第十六届挑战杯全国特等奖(指导教师)

  • 全国大学生创新创业训练计划优秀指导教师

  • 复旦大学2020届本(专)科毕业生“我心目中的好老师”提名奖

研究兴趣和领域

  • 电催化制氢材料及锂/钠离子电池储能器件

  • 电磁隐身材料

  • 碳化硅材料

主持科研项目

  • 国家杰出青年科学基金项目

  • 国家自然科学基金面上项目

  • 上海市曙光学者计划项目    

  • 海外高层次青年人才项目

学术任职

  • 担任Journal of Alloys and Compounds的Editor(2018年7月–至今)

近年代表性论文

在Prog. Mater. Sci.,Nat. Commun., Adv. Mater.,Energy Environ. Sci.等期刊发表论文120余篇,其中19篇入选ESI高被引论文,论文被引9100余次。
  1. X. X. Yan, D. Liu, P. F. Guo, Y. F. He, H. G. Pan*, D. L. Sun, F. Fang*, and R. B. Wu*, Atomically Dispersed Co2MnN8 Triatomic Sites Anchored in N-Doped Carbon Enabling Efficient Oxygen Reduction Reaction, Advanced Materials, 2023, 35, 2210975.

  2. D. Liu, X. X. Yan, P. F. Guo, Y. X. Yang, Y. F. He, J. Liu, J. Chen, H. G. Pan*, and R. B. Wu*,Inert Mg Incorporation to Break the Activity/Stability Relationship in High-Entropy Layered Hydroxides for Electrocatalytic Oxygen Evolution Reaction, ACS Catalysis, 2023, 13, 76987706.

  3. H. L. Lv, Y. X. Yao, S. C. Li, G. L. Wu, B. Zhao, X. D. Zhou, R. L. Dupont, U. I. Kara, Y. M. Zhou, S. B. Xi, B. Liu*, R. C. Che*, J. C. Zhang, H. B. Xu, S. Adera, and R. B. Wu*, X. G. Wang*, Staggered Circular Nanoporous Graphene Converts Electromagnetic Waves into Electricity, Nature Communications, 2023, 14, 1982.

  4. H. L. Lv, Z. H. Yang*, H. G. Pan, and R. B. Wu*, Electromagnetic Absorption Materials: Current Progress and New Frontiers, Progress in Materials Science, 2022, 127, 100946.

  5. H. Y. Yang#, P. F. Guo#, R. R. Wang, Z. L. Chen*, H. B. Xu, H. G. Pan, D. L. Sun, F. Fang*, and R. B. Wu*, Sequential Phase Conversion-Induced Phosphides Heteronanorod Arrays for Superior Hydrogen Evolution Performance to Pt in Wide pH Media, Advanced Materials, 2022, 34, 2107548.

  6. W. Li#, B. Liu#, D. Liu, P. F. Guo, J. Liu, R. R. Wang, Y. H. Guo, X. Tu, H. G. Pan*, D. L. Sun*, F. Fang, and R. B. Wu*, Alloying Co Species into Ordered and Interconnected Macroporous Carbon Polyhedra for Efficient Oxygen Reduction Reaction in Rechargeable Zn-Air Battery, Advanced Materials, 2022, 34, 2109605.

  7. R. R. Wang, R. B. Wu*, X. X. Yan, W. Li, D. Liu, P. F. Guo, W. Li and H. G. Pan*, Implanting Single Zn Atoms Coupled with Metallic Co Nanoparticles into Porous Carbon Nanosheets Grafted with Carbon Nanotubes for High-Performance Lithium-Sulfur Batteries, Advanced Functional Materials, 2022, 32, 2200424.

  8. W. Li, J. Liu, P. F. Guo, H. Z. Li, B. Fei, Y. H. Guo*, H. G. Pan, D. L. Sun, F. Fang*, and R. B. Wu*, Co/CoP Heterojunction on Hierarchically Ordered Porous Carbon as a Highly Efficient Electrocatalyst for Hydrogen and Oxygen Evolution, Advanced Energy Materials, 2021, 11, 2102134.

  9. H. L. Lv, Z. H. Yang, B. Liu, B. Fei, and R. B. Wu*, A Flexible Electromagnetic Wave-Electricity Harvester, Nature Communications, 2021, 12, 834.

  10. H. B. Xu#, H. X. Jia#, H. Z. Li#, J. Liu, X. W. Gao, J. C. Zhang, M. Liu*, D. L. Sun, S. L. Chou, F. Fang*, and R. B. Wu*, Dual Carbon-Hosted Unusual Co-N3 Enabling Unusual Reaction Pathway Active Sites for Efficient Oxygen Reduction Reaction, Applied Catalysis B: Environmental, 2021, 297, 120390.

  11. Z. L. Chen#, H. L. Qing#, R. R. Wang, and R. B. Wu*, “Charge Pumping Enabling Co-NC Outperforms Benchmark Pt Catalyst for pH-Universal Hydrogen Evolution Reaction”, Energy & Environmental Science, 2021, 14, 31603173.

  12. Y. Ha, B. Fei, X. X. Yan, H. B. Xu, Z. L. Chen, L. X. Shi, M. S. Fu*, W. Xu, and R. B. Wu*, Atomically Dispersed Co-Pyridinic N-C for Superior Oxygen Reduction Reaction, Advanced Energy Materials, 2020, 10, 2002592.

  13. B. Fei, Z. L. Chen, J. X. Liu, H. B. Xu, X. X. Yan, H. L. Qing, M. Chen, and R. B. Wu*, Ultrathinning Nickel Sulfide with Modulated Electron Density for Efficient Water Splitting, Advanced Energy Materials, 2020, 10, 2001963.

  14. Z. L. Chen#, M. Chen#, X. X. Yan, H. X. Jia, B. Fei, Y. Ha, H. L. Qing, H. Y. Yang, M. Liu, and R. B. Wu*, Vacancy Occupation-Driven Structural Transition in CoTe2 for Boosted Oxygen Evolution Reaction, ACS Nano, 2020, 14, 6968–6979.

  15. H. B. Xu#, B. Fei#, G. H. Cai#, Y. Ha, J. Liu, H. X. Jia, J. C. Zhang, M. Liu, and R. B. Wu*, Boronization-Induced Ultrathin 2D Nanosheets with Abundant Crystalline-Amorphous Phase Boundary Supported on Nickel Foam Toward Efficient Water Splitting, Advanced Energy Materials, 2020, 10, 1902714.

  16. H. L. Lv#, Z. H. Yang#, H. B. Xu, and R. B. Wu*, An Electrical Switch-Driven Flexible Electromagnetic Absorber, Advanced Functional Materials, 2020, 30, 1907251.

  17. Z. L. Chen#, H. L. Qing#, K. Zhou*, D. L. Sun, and R. B. Wu*, Metal-Organic Framework-Derived Nanocomposites for Electrocatalytic Hydrogen Evolution Reaction, Progress in Materials Science, 2020, 108, 100618.

  18. Z. L. Chen#, B. Fei#, M. L. Hou, X. X. Yan, M. Chen, H. L. Qing, and R. B. Wu*, Ultrathin Prussian Blue Analogue Nanosheet Arrays with Open Bimetal Centers for Efficient Overall Water Splitting, Nano Energy, 2020, 68, 104371.

  19. H. B. Xu, H. X. Jia, B. Fei, Y. Ha, H. Z. Li, Y. H. Guo, M. Liu and R. B. Wu*, Charge Transfer Engineering via Multiple Heteroatoms Doping in Dual Carbon-Coupled Cobalt Phosphides for Highly Efficient Overall Water Splitting, Applied Catalysis B: Environmental, 2020, 268, 118404.

  20. H. Y. Yang, Z. L. Chen, P. F. Guo, B. Fei, and R. B. Wu*, B-Doping-Induced Amorphization of LDH for Large-Current-Density Hydrogen Evolution Reaction, Applied Catalysis B: Environmental, 2020, 261, 118240.

  21. Z. L. Chen, Y. Ha, H. X. Jia, X. X. Yan, M. Liu, R. B. Wu*, Oriented Transformation of Co-LDH into 2D/3D ZIF-67 to Achieve Co-N-C Hybrids for Efficient Overall Water Splitting, Advanced Energy Materials, 2019, 9, 1803918.

  22. Y. Liu#, Z. L. Chen#, H. X. Jia, H. B. Xu, M. Liu, and R. B. Wu*, Iron-Doping-Induced Phase Transformation in Dual Carbon Confined Cobalt Diselenide Enabling Superior Lithium Storage, ACS Nano, 2019, 13, 6113–6124.

  23. H. Y. Yang, Z. L. Chen, W. J. Hao, H. B. Xu, Y. H. Guo, and R. B. Wu*, Catalyzing Over Water Splitting at an Ultralow Cell Voltage of 1.42 V via Coupled Co-Doped NiO Nanosheets with Carbon, Applied Catalysis B: Environmental, 2019, 252, 214–221.

  24. Y. Ha, L. X. Shi, Z. L. Chen, and R. B. Wu*, Phase-transited Lysozyme-Driven Formation of Self-Supported Co3O4/C Nanomeshes for Overall Water Splitting, Advanced Science, 2019, 6, 1900272.

  25. Z. L. Chen#, H. B. Xu#, Y. Ha, X. Y. Li, M. Liu, and R. B. Wu*, Two-Dimensional Dual Carbon-Coupled Defective Nickel Quantum Dots Towards Highly Efficient Overall Water Splitting, Applied Catalysis B: Environmental, 2019, 250, 213–223.

  26. Z. L. Chen#, R. B. Wu#,*, Y. Liu, Y. Ha, Y. H. Guo, D. L. Sun*, M. Liu, and F. Fang*, Ultrafine Co Nanoparticles Encapsulated in Carbon-Nanotubes-Grafted Graphene Sheets as Advanced Electrocatalysts for the Hydrogen Evolution Reaction, Advanced Materials, 2018, 30, 1802011.

  27. Z. L. Chen, R. B. Wu*, M. Liu, H. Wang, Y. Song, F. Fang, X. B. Yu, and D. L. Sun*, General Synthesis of Dual Carbon-confined Metal Sulfides Quantum Dots Towards High-Performance Anodes for Sodium-Ion Batteries”, Advanced Functional Materials, 2017, 27, 1702046.

  28. R. B. Wu#, D. P. Wang#, X. H. Rui, B. Liu, K. Zhou, A. W. K. Law, Q. Y. Yan, and Z. Chen, In-situ Formation of Hollow Hybrids Composed of Cobalt Sulfides Embedded within Porous Carbon Polyhedra/Carbon Nanotubes for High-Performance Lithium-Ion Batteries, Advanced Materials, 2015, 27, 3038–3044.

  29. R. B. Wu, K. Zhou, C. Y. Yue, J. Wei, and Y. Pan, Recent Progress in Synthesis, Properties and Potential Applications of SiC nanomaterials, Progress in Materials Science, 2015, 72, 1–60.

备注:欢迎本科生来课题组进行科创(多名本科生在本课题组以第一作者在Adv. Energy Mater.,ACS Nano,Appl. Catal. B: Environ.,J. Mater. Chem. A等期刊发表学术论文)。欢迎材料学、化学、物理等相关专业的优秀学生加盟本课题组攻读硕士和博士学位。欢迎相关领域的博士来本课题组进行博士后合作研究。