王韬

办公室：翔安校区嘉庚创新实验室4306室
实验室：翔安校区嘉庚创新实验室4327室
邮　箱：twangxm@xmu.edu.cn

个人简历：
2023—至今　　维多利亚vic309官网，教授

　　　　　　　嘉庚创新实验室，研究员

2022—2023　　嘉庚创新实验室，副研究员

2020—2022　　维多利亚vic309官网, 博士后（导师：孙世刚 教授，周志有 教授）

2018—2019　　美国麻省理工学院，联合培养博士 （导师：邵阳 教授）

2014—2019　　维多利亚vic309官网，能源材料化学协同创新中心,博士（导师：孙世刚 教授，周志有 教授）

2010—2014　　维多利亚vic309官网，基础学科拔尖人才培养计划，学士

获得荣誉：
2023　国家自然科学基金优秀青年科学基金

2023　厦门市高层次留学人员

2024　福建省高层次人才B类

研究兴趣：
结合原位谱学与分子动力学模拟研究电化学界面微观反应动力学，燃料电池中电催化界面设计与可控构筑，电催化碳氢小分子转化等。

近期主要代表论著：

1. 1. X.-C. Liu, W.-K. Yao, B.-Y. Su, Y.-H. Hong*, T. Wang*, Z.-Y. Zhou*, S.-G. Sun. Efficient conversion of propylene to propylene glycol by coupling H2O2 electrosynthesis and TS-1 thermocatalysis. Electrochem. Commun., (2023): 107510.

2. 2. X.-Yu. Li, T Wang*,      Y.-C. Cai, Z.-D. Meng, W.-J. Nan, J.-Y. Ye, J. Yi, D,-P. Zhan, T. Na,      Z.-Y. Zhou*, S.-G. Sun*, Mechanism of Cations Suppressing Proton Diffusion      Kinetics for Electrocatalysis. Angew. Chem. Int. Ed. (2023):      e202218669.

3. 3. X.-C. Liu, T. Wang*,      Z.-M. Zhang, C.-H. Yang, L.-Y. Li, S. Wu, S. Xie, G. Fu, Z.-Y. Zhou* and      S.-G. Sun, Reaction Mechanism and Selectivity Tuning of Propene Oxidation      at the Electrochemical Interface. J. Am. Chem. Soc., 144, 45,      20895-20902. (2022)

4. 4. T. Wang,      L.-Y. Li, L.-N. Chen, T. Sheng, L.-N. Chen, Y.-C. Wang, P.-Y. Zhang, Y.-H.      Hong, J.-Y. Jin, W.-F. Lin, Q.-H. Zhang, P. Zhang, G. Fu, N. Tian, S.-G.      Sun, Z.-Y. Zhou*, High CO tolerant Ru-based catalysts by constructing      oxide blocking layer, J. Am. Chem. Soc., 144, 21, 9292–9301 (2022).

5. 5. T. Wang,      Y. Zhang, B. Huang, B. Cai, R. R. Rao, L. Giordano, S.-G. Sun, Y.      Shao-Horn*, Enhancing Oxygen Reduction Electrocatalysis by Tuning      Interfacial Hydrogen Bonds, Nat. Catal., 4, 753–762 (2021).

6. 6. T. Wang, Z.-X. Chen,      S. Yu, T. Sheng, H.-B. Ma, L.-N. Chen, M. Rauf, H.-P. Xia, Z.-Y. Zhou*,      S.-G. Sun, Constructing canopy-shaped molecular architectures to create      local Pt surface sites with high tolerance to H₂S and CO for      hydrogen electrooxidation. Energy      Environ. Sci.11, 166-171      (2018).

7. 7. T. Wang, Z.-X. Chen,      Y.-G. Chen, L.-J. Yang*, X.-D. Yang, J.-Y. Ye, H.-P. Xia, Z.-Y. Zhou*,      S.-G. Sun, Identifying the Active Site of N-Doped Graphene for Oxygen      Reduction by Selective Chemical Modification. ACS Energy Lett. 3,      986-991 (2018).

8. 8. Z. Chen, T. Wang, T. Sun, Z. Chen, T. Sheng, Y.-H. Hong, et al. Nickel Complexes with Non-innocent Ligands as Highly      Active Electrocatalysts for Hydrogen Evolution. Chin. J. Chem. 2018, 36(12): 1161-1164.

9. 9. C.-H. Yang,      X.-C. Liu, Y. Li, S. Yuan*, T. Wang*, Z.-Y. Zhou*, S.-G.      Sun. Selective conversion of propane by electrothermal catalysis in proton      exchange membrane fuel cell. ChemSusChem, (2023): e202300699.