汪国雄，男，博士，研究员，博士生导师。2000和2006年分别在武汉大学和中国科学院大连化学物理研究所获得理学学士和博士学位。2007年9月-2010年12月在日本北海道大学催化科学研究中心从事博士后研究，之后进入催化基础国家重点实验室工作。2017年7月任DNL21部碳基资源电催化转化研究组组长。主要从事二氧化碳电解制燃料和化学品研究，包括催化剂设计与制备、电化学原位动态表征、电解器件与技术等。在Nat. Commun., J. Am. Chem. Soc., Angew. Chem. Int. Ed., Adv. Mater., Energy Environ. Sci.等期刊发表研究论文120余篇，授权中国发明专利10件。作为核心成员获得2017年全国创新争先奖牌， 2019年入选中国科学院青年创新促进会优秀会员，2021年获得国家杰出青年科学基金资助。

1. H. F. Lv, L. Lin, X. M. Zhang, R. T. Li, Y. F. Song, H. Matsumoto, N. Ta, C. B. Zeng, Q. Fu, G. X. Wang*, X. H. Bao, Promoting exsolution of RuFe alloy nanoparticles on  Sr₂Fe_1.4Ru_0.1Mo_0.5O_6-δ via repeated redox manipulations for CO₂ electrolysis, Nature Communications, 2021, 12: 5665.

2. L. Lin, H. B. Li, Y. Wang, H. F. Li, P. F. Wei, B. Nan, R. Si, G. X. Wang*, X. H. Bao, Temperature-dependent CO₂ electroreduction over Fe-N-C and Ni-N-C single-atom catalysts, Angewandte Chemie International Edition, 2021, 10.1002/anie.202113135.

3. H. F. Li, T. F. Liu, P. F. Wei, L. Lin, D. F. Gao*, G. X. Wang*, X. H. Bao, High-rate CO₂ electroreduction to C₂₊ products over copper-copper iodide catalyst, Angewandte Chemie International Edition, 2021, 60, 14329-14333.

4. H. F. Lv, T. F. Liu, X. M. Zhang, Y. F. Song, H. Matsumoto, N. Ta, C. B. Zeng, G. X. Wang*, X. H. Bao, Atomic-scale insight into exsolution of CoFe alloy nanoparticles in La_0.4Sr_0.6Co_0.2Fe_0.7Mo_0.1O_3-δ with efficient CO₂ electrolysis, Angewandte Chemie International Edition, 2020, 59, 15968-15973.

5. K. Ye, Z. W. Zhou, J. Q. Shao, L. Lin, D. F. Gao, N. Ta, R. Si, G. X. Wang*, X. H. Bao, In situ reconstruction of a hierarchical Sn-Cu/SnO_x core/shell catalyst for high-performance CO₂ electroreduction, Angewandte Chemie International Edition, 2020, 59, 4814-4821.

6. H. F. Lv, L. Lin, X. M. Zhang, Y. F. Song, H. Matsumoto, C. B. Zeng, N. Ta, W. Liu, D. F. Gao, G. X. Wang*, X. H. Bao, In situ investigation of reversible exsolution/dissolution of CoFe alloy nanoparticles in a Co-doped Sr₂Fe_1.5Mo_0.5O_6-δ cathode for CO₂ electrolysis, Advanced Materials, 2020, 32, 1906193.

7. L. Lin, T. F. Liu, J. P. Xiao, H. F. Li, P. F. Wei, D. F. Gao, B. Nan, R. Si, G. X. Wang*, X. H. Bao, Enhancing CO₂ electroreduction to methane with a cobalt phthalocyanine and zinc-nitrogen-carbon tandem catalyst, Angewandte Chemie International Edition, 2020, 59, 22408-22413.

8. L. Lin, H. B. Li, C. C. Yan, H. F. Li, R. Si, M. R. Li, J. P. Xiao, G. X. Wang*, X. H. Bao, Synergistic catalysis over iron-nitrogen sites anchored with cobalt phthalocyanine for efficient CO₂ electroreduction, Advanced Materials, 2019, 31, 1903470.

9. Y. S. Song, L. Lin, W. C. Feng, X. M. Zhang, Q. Dong, X. B. Li, H. F. Lv, Q. X. Liu, F. Yang, Z. Liu, G. X. Wang*, X. H. Bao, Interfacial enhancement by γ-Al₂O₃ of electrochemical oxidative dehydrogenation of ethane to ethylene in solid oxide electrolysis cell, Angewandte Chemie International Edition, 2019, 58, 16043-16046.

10. Y. S. Song, X. M. Zhang, K. Xie, G. X. Wang*, X. H. Bao*, High-temperature CO₂ electrolysis in solid oxide electrolysis cells: developments, challenges, and prospects, Advanced Materials, 2019, 31, 1902033.

11. C. C. Yan, H. B. Li, Y. F. Ye, H, H. Wu, F. Cai, R. Si, J. P. Xiao, S. Miao, S. H. Xie, F. Yang, Y. S. Li, G. X. Wang*, X. H. Bao*, Coordinatively unsaturated nickel–nitrogen sites towards selective and high-rate CO₂ electroreduction, Energy & Environment Science, 2018, 11,1204-1210.

12. Z. G. Geng, X. D. Kong, W. W. Chen, H. Y. Su, Y. Liu, F. Cai, G. X. Wang*, J. Zeng*, Oxygen vacancies in ZnO nanosheets enhance CO₂ electrochemical reduction to CO, Angewandte Chemie International Edition, 2018, 57, 6054-6059.

13. D. F. Gao, Y. Zhang, Z. W. Zhou, F. Cai, X. F. Zhao, W. G. Huang, Y. S. Li, J. F. Zhu, P. Liu, F. Yang*, G. X. Wang*, X. H. Bao*, Enhancing CO₂ electroreduction with the metal-oxide interface, Journal of the American Chemical Society, 2017, 139, 5652-5655.

14. H. H. Wu, H. B. Li, X. F. Zhao, Q. F. Liu, J. Wang, J. P. Xiao, S. H. Xie, R. Si, F. Yang, S. Miao, X. G. Guo, G. X. Wang*, X. H. Bao*, Highly doped and exposed Cu(I)-N active sites within graphene towards efficient oxygen reduction for zinc-air battery, Energy & Environment Science, 2016, 9, 3736-3745.

15.D. F. Gao, H. Zhu, J. Wang, S. Miao, F. Yang, G. X. Wang*, J. G. Wang*, X. H. Bao, Size-dependent electrocatalytic reduction of CO₂ over Pd nanoparticles, Journal of the American Chemical Society, 2015, 137, 4288-4291.