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首页> 科研团队> 过往成员> 蒋昆
蒋昆 副教授
研究方向为谱学电化学、能源催化和工程热物理的交叉研究方向。2024年就职于复旦大学,开展研究工作。
https://jianglab.sjtu.edu.cn

教育背景

  • 2010.09 - 2016.01 复旦大学,物理化学博士
  • 2006.09 - 2010.06 暨南大学,应用化学本科

工作经历

  • 2019.10 - 至今 上海交通大学 机械与动力工程学院,副教授,博导
  • 2018.10 - 2019.09 美国劳伦斯伯克利国家实验室 / 加州大学伯克利分校,博士后
  • 2016.04 - 2018.09 美国哈佛大学,博士后

研究方向

利用原位电化学谱学技术,如 ATR-FTIR、Raman 和 DEMS,来研究能源电催化反应(燃料小分子的电氧化,氧还原,CO2的电还原等)机理,指导新型电催化剂的设计合成;结合单体膜电极、电堆等电化学反应器件的设计,进行绿色电化学合成

科研项目

  • 2019 - 2022 上海交通大学科研启动资金,主持
  • 2020 - 2023 上海市“科技创新行动”扬帆计划,主持
  • 2020 - 2022 上海交通大学-自然资源部第二海洋研究所“深蓝计划”前瞻技术交叉项目,主持
  • 2021 - 2022 上海航天技术研究院-上海交通大学联合基金,主持
  • 2021 - 2023 国家自然科学基金青年项目,主持

代表性论文专著

# Equal contribution; * Corresponding author

At SJTU

  1. Electrocatalytic CO2 and HCOOH Interconversion on Pd-based Catalysts
    G. Zhang, X. Qin, C. Deng, W.B. Cai*, K. Jiang*, Advanced Sensor and Energy Materials, 2022, 1, 100007.
    (Invited Contribution to the Special Issue of "Catalysis for Energy Process")
  2. Resolving Local Reaction Environment toward an Optimized CO2-to-CO Conversion Performance
    K. Ye, G. Zhang, X. Ma, C. Deng, X. Huang, C. Yuan, G. Meng, W.B. Cai, K. Jiang*, Energy & Environmental Science, 2022, 15, 749-759.
  3. Manipulating the Oxygen Reduction Reaction Pathway on Pt-Coordinated Motifs
    J. Zhao, C. Fu, K. Ye, Z. Liang, F. Jiang, S. Shen, X. Zhao, L. Ma, Z. Shadike, X. Wang, J. Zhang*, K. Jiang*, Nature Communications, 2022, 13, 685.
  4. Electrochemical Hydrogen Peroxide Synthesis from Selective Oxygen Reduction over Metal Selenide Catalyst
    Q. Yuan#, J. Zhao#, D. Mok#, Z. Zheng, Y. Ye, C. Liang, L. Zhou, B. Seoin*, K. Jiang*, Nano Letters, 2022, 22, 1257-1264.
    (Featured as the Front Cover Story)
  5. The Critical Role of Additive Sulfate for Stable Alkaline Seawater Oxidation on Ni‐based Electrode
    T. Ma#, W. Xu#, B. Li, X. Chen, J. Zhao, S. Wan, K. Jiang*, S. Zhang, Z. Wang, Z. Tian, Z. Lu*, L. Chen*, Angewandte Chemie International Edition, 2021, 60, 22740-22744.
  6. Local Coordination and Reactivity of a Pt Single Atom Catalyst as Probed by Spectroelectrochemical andComputational Approaches
    K. Jiang*, X.Y. Ma, S. Back*, J. Zhao, F. Jiang, X. Qin, J. Zhang, W.B. Cai*, CCS Chemistry, 2021, 3, 241-251.
  7. Boosting Electrocatalytic Oxidation of Formic Acid on SnO2-decorated Pd Nanosheets
    Y.W. Zhou, Y.F. Chen, X. Qin, K. Jiang*, W.F. Lin, W.B. Cai*, Journal of Catalysis, 2021, 399, 8-14.
    (Invited Contribution to the Special Issue of "Electrocatalysis")
  8. Spectrometric Study of Electrochemical CO2 Reduction on Pd and Pd-B Electrodes
    T.W. Jiang, Y.W. Zhou, X.Y. Ma, X. Qin, H. Li, C. Ding, B. Jiang*, K. Jiang*, W.B. Cai*, ACS Catalysis, 2021, 11, 840-848
  9. Direct and Continuous Generation of Pure Acetic Acid Solutions via Electrocatalytic Carbon Monoxide Reduction
    P. Zhu, C. Xia, C.-Y. Liu, K. J., G. Gao, X. Zhang, Y. Xia, Y. Lei, H.N. Alshareef, T.P. Senftle*, H. Wang*, Proceedings of the National Academy of Sciences of the U.S.A., 2021, 118, e2010868118.
  10. Revisiting Acetaldehyde Oxidation Reaction on Pt Electrode by High Sensitive and Wide Frequency Infrared Spectroscopy
    X.Y. Ma, C. Ding, H. Li, K. Jiang*, S. Duan*, W.B. Cai*, Journal of the Physical Chemistry Letters, 2020, 11, 8727-8734.
  11. Catalyst Design for Electrochemical Oxygen Reduction towards Hydrogen Peroxide
    K. Jiang*, J. Zhao, H. Wang*, Advanced Functional Materials, 2020, 30, 2003321.
    (Invited Contribution to the Special Issue of "Single Atom Catalysis")
  12. Effects of Surface Roughness on the Electrochemical Reduction of CO2 over Cu
    K. Jiang#, Y. Huang#, G. Zeng, F.M. Toma, W.A. Goddard, III, A.T. Bell*, ACS Energy Letters, 2020, 5, 1206-1214.
  13. Production of C2/C3 Oxygenates from Planar Copper Nitride-Derived Mesoporous Copper via Electrochemical Reduction of CO2
    M. Ebaid#, K. Jiang#, Z. Zhang, W.S. Drisdell, A.T. Bell*, J.K. Cooper*, Chemistry of Materials, 2020, 32, 3304-3311.
  14. Mechanistic Analysis Guided Pd-Based Catalysts for Efficient Hydrogen Production from Formic Acid Dehydrogenation
    X. Qin, H. Li, S. Xie, K. Li, T.W. Jiang, X.-Y. Ma, K. Jiang, Q. Zhang, O. Terasaki, Z. Wu*, W.-B. Cai*, ACS Catalysis, 2020, 10, 3921-3932.
  15. Confined Local Oxygen Gas Promotes Electrochemical Water Oxidation to Hydrogen Peroxide
    C. Xia#, S. Back#, S. Ringe#, K. Jiang, F. Chen, X. Sun, S. Siahrostami*, K. Chen*, H. Wang*, Nature Catalysis, 2020, 3, 125-134.
  16. Integrating Rh Species with NiFe Layered-Double-Hydroxide for Overall Water Splitting
    B. Zhang#, C. Zhu#, Z. Wu#, E. Stavitski, Y.H. Lui, T.-H. Kim, H. Liu, L. Huang, X. Luan, L. Zhou, K. Jiang, W. Huang, S. Hu*, H. Wang*, J.S. Francisco*, Nano Letters, 2019, 20, 136-144.
  17. Changing the Product Selectivity for Electrocatalysis of CO2 Reduction Reaction on Plated Cu Electrodes
    H. Li, X. Qin, T. Jiang, X.-Y. Ma, K. Jiang*, W.-B. Cai*, ChemCatChem, 2019, 11, 6139-6146.
    (Invited Contribution to the Special Issue of "Electrocatalysis: From Batteries to Clean Energy Conversion")

Prior to SJTU

  1. Highly Selective Oxygen Reduction to Hydrogen Peroxide on Transition Metal Single Atom Coordination
    K. Jiang#, S. Back#, A.J. Akey, C. Xia, Y. Hu, W. Liang, D. Schaak, E. Stavitski, J.K. Nørskov, S. Siahrostami*, H. Wang*, Nature Communications, 2019, 10, 3997.
  2. The Role of Defect Sites in Nanomaterials for Electrocatalytic Energy Conversion
    Y. Jia#, K. Jiang#, H. Wang*, X. Yao*, Chem, 2019, 5, 1371-1397.
  3. Metal Ion Cycling of Cu Foil for Selective C-C Coupling in Electrochemical CO2 Reduction
    K. Jiang#, R.B. Sandberg#, A.J. Akey, X. Liu, D.C. Bell, J.K. Nørskov, K. Chan*, H. Wang*, Nature Catalysis, 2018, 1, 111-119.
    (ESI Highly Cited Paper, Featured as the Front Cover, AIChE's 2018 Best Fundamental Paper Award-South Texas Section)
  4. Isolated Ni Single Atoms in Graphene Nanosheets for High-Performance CO2 Reduction
    K. Jiang#, S. Siahrostami#, T. Zheng, Y. Hu, S. Hwang, E. Stavitski, Y. Peng, J.J. Dynes, M. Gangishetty, D. Su, K. Attenkofer, H. Wang*, Energy & Environmental Science., 2018, 11, 893-903.
    (ESI HOT Paper & Highly Cited Paper, Highlighted by social media including Brookhaven News, ScienceDaily, PhysOrg, RIA Science etc.)
  5. Recent Advances in Electrochemical CO2‐to‐CO Conversion on Heterogeneous Catalysts
    T. Zheng#, K. Jiang#, H. Wang*, Advanced Materials, 2018, 30, 1802066.
  6. Electrocatalysis over Graphene-Defect-Coordinated Transition-Metal Single-Atom Catalysts
    K. Jiang, H. Wang*, Chem, 2018, 4, 194-195.
  7. Transition-Metal Single Atoms in a Graphene Shell as Active Centers for Highly Efficient Artificial Photosynthesis
    K. Jiang#, S. Siahrostami#, A.J. Akey, Y. Li, Z. Lu, J. Lattimer, Y. Hu, C. Stokes, M. Gangishetty, G. Chen, Y. Zhou, W. Hill, W.-B. Cai, D.C. Bell, K. Chan, J.K. Nørskov, Y. Cui, H. Wang*, Chem, 2017, 3, 950-960.
    (ESI Highly Cited Paper, Featured as the Front Cover, highlighted by social media including ScienceDaily, PhysOrg, New Energy and Fuel, ChemEurope etc.)
  8. Li Electrochemical Tuning of Metal Oxide for Highly Selective CO2 Reduction
    K. Jiang, H. Wang, W.B. Cai, H. Wang*, ACS Nano, 2017, 11, 6451-6458.
  9. Formic Acid Oxidation at Palladium Electrode in Acidic Media Containing Chloride Anions: An in situ ATR-SEIRAS Investigation
    K. Jiang#, J.Y. Wang#, T.T. Zhao, W.B. Cai*, Journal of Electroanalytical Chemistry, 2017, 800, 77-81.
    (Invited contribution, Dedicated to Prof. Masatoshi Osawa)
  10. Surfactant-Free Synthesis of Carbon-Supported Palladium Nanoparticles and Size-Dependent Hydrogen Production from Formic Acid-Formate Solution
    S. Zhang, B. Jiang, K. Jiang*, W.B. Cai*, ACS Applied Materials & Interfaces, 2017, 9, 24678-24687.
  11. Facile Aqueous Phase Synthesis of Carbon Supported B-doped Pt3Ni Nanocatalyst for Efficient Oxygen Reduction Reaction
    Y. Dong, Y.W. Zhou, M.Z. Wang, S.L. Zheng, K. Jiang*, W.B. Cai*, Electrochimica Acta, 2017, 246, 242-250.
  12. Small Addition of Boron in Palladium Catalyst, Big Improvement in Fuel Cell's Performance: What May Interfacial Spectro-electrochemistry Tell?
    K. Jiang, J.F. Chang, H. Wang, S. Brimaud, W. Xing, R.J. Behm, W.B. Cai*, ACS Applied Materials & Interfaces, 2016, 8, 7133-7138.
  13. Bio-Inspired Leaf-Mimicking Nanosheet/Nanotube Heterostructure as a Highly Efficient Oxygen Evolution Catalyst
    Y. Wang#, K. Jiang#, H. Zhang, T. Zhou, J. Wang, W. Wei, Z. Yang, X. Sun, W. B. Cai*, G. Zheng*, Advanced Science, 2015, 2, 1500003.
    (Featured as the Front Cover, highlighted by Wiley-MaterialViews)
  14. Carbon Supported Pd-Pt-Cu Nanocatalysts for Formic Acid Electrooxidation: Synthetic Screening and Componential Functions
    K. Jiang, W. B. Cai*, Applied Catalysis B: Environmental, 2014, 147, 185-192.
  15. B-Doped Pd Catalyst: Boosting Room-Temperature Hydrogen Production from Formic Acid−Formate Solutions
    K. Jiang, K. Xu, S. Zou, W. B. Cai*, Journal of the American Chemical Society, 2014, 136, 4861-4864.
    (ESI Highly Cited Paper, Highlighted by 2011-iChem News)

荣誉奖项

  • 上海交通大学“砺新杯”大学生节能减排创新大赛,一等奖(本科生组,指导教师,2022.05)
  • 上海市自然科学二等奖(2019)
  • 美国化工协会 South Texas Section -- AIChE's 2018 Best Fundamental Paper Award
  • 加州大学伯克利分校 Berkeley Postdoctoral Association 2019 Professional Development Award
  • 国际氢能杂志 2017 Outstanding Reviewer for International Journal of Hydrogen Energy
  • 上海市优秀毕业生(2016)
  • 陶氏化学 2014 Dow Sustainability Innovation Student Challenge Award
  • 德国巴登-符腾堡州政府奖学金(2015)
  • 德国研究基金会DFG-IRTG奖学金(2012)