师资队伍
包信和
中国科学院院士
物理化学
教授,博士生导师
研究兴趣
主要从事能源清洁高效转化中的催化基础与应用研究工作。在国际上率先开展了碳纳米结构材料的催化研究,发现和阐述了纳米限域条件下催化剂活性中心的结构、电子特性和催化活性间的关联机制和作用规律,提出了“纳米限域催化”概念,并在一维碳管、二维界面和三维晶格中获得拓展和完善,初步形成了理论体系。以此概念为指导,发展出了高性能的一氧化碳选择氧化催化剂;创制晶格限域的单铁催化剂,实现了甲烷无氧转化直接制烯烃和高值化学品;首创氧化物和分子筛纳米复合催化剂和催化过程,成功实现煤基合成气一步转化直接制低碳烯烃。
代表性论文或专著
F. Jiao, B. Bai, G. Li, X. L. Pan*, Y. H. Ye, S. C. Qu, C. Q. Xu, J. P. Xiao, Z. H. Jia, W. Liu, T. Peng, Y. L. Ding, C. Liu, J. J. Li, X. H. Bao*, Disentangling the activity-selectivity trade-off in catalytic conversion of syngas to light olefins, Science, 2023, 380, 727-730.
F. Jiao, J. J. Li, X. L. Pan*, J. P. Xiao, H. B. Li, H. Ma, M. M. Wei, Y. Pan, Z. Y. Zhou, M. R. Li, S. Miao, J. Li, Y. F. Zhu, D. Xiao, T. He, J. H. Yang, F. Qi, Q. Fu, X. H. Bao*, Selective conversion of syngas to light olefins, Science, 2016, 351, 1065-1068.
X. G. Guo, G. Z. Fang, G. Li, H. Ma, H. J. Fan, L. Yu, C. Ma, X. Wu, D. H. Deng, M. M. Wei, D. L. Tan, R. Si, S. Zhang, J. Q. Li, L. T. Sun, Z. C. Tang, X. L. Pan, X. H. Bao*, Direct, nonoxidative conversion of methane to ethylene, aromatics, and hydrogen, Science, 2014, 344, 616-619.
Q. Fu, W.-X. Li, Y. X. Yao, H. Y. Liu, H.-Y. Su, D. Ma, X.-K. Gu, L. M. Chen, Z. Wang, H. Zhang, B. Wang, X. H. Bao*, Interface-confined ferrous centers for catalytic oxidation, Science, 2010, 328, 1141-1144.
P. F. Wei, D. F. Gao, T. F. Liu, H. F. Li, J. Q. Sang, C. Wang, R. Cai, G. X. Wang*, X. H. Bao*, Coverage-driven selectivity switch from ethylene to acetate in high-rate CO2/CO electrolysis, Nature Nanotechnology, 2023, 18, 299-306.
D. H. Deng, K. S. Novoselov*, Q. Fu, N. F. Zheng, Z. Q. Tian*, X. H. Bao*, Catalysis with two-dimensional materials and their heterostructures, Nature Nanotechnology, 2016, 11, 218-230.
X. L. Pan, Z. L. Fan, W. Chen, Y. J. Ding, H. Y. Luo, X. H. Bao*, Enhanced ethanol production inside carbon-nanotube reactors containing catalytic particles, Nature Materials, 2007, 6, 507-511.
H. Xin, R. T. Li, L. Lin, R. T. Mu, M. R. Li, D. Li*, Q. Fu*, X. H. Bao*, Reverse water gas-shift reaction product driven dynamic activation of molybdenum nitride catalyst surface, Nature Communications, 2024, 15: 3100.
C. S. Yang, S. C. Ma*, Y. M. Liu, L. H. Wang, D. S. Yuan, W.-P. Shao, L. J. Zhang, F. Yang, T. J. Lin, H. X. Ding, H. Y. He, Z.-P. Liu, Y. Cao, Y. F. Zhu*, X. H. Bao*, Homolytic H2 dissociation for enhanced hydrogenation catalysis on oxides, Nature Communications, 2024, 15: 540.
Y. X. Chen, S. B. Han, X. L. Pan*, F. Jiao, W. Liu, Y. Pan, X. H. Bao*, Visualization of the active sites of zinc-chromium oxides and the CO/H2 activation mechanism in direct syngas conversion, Journal of the American Chemical Society, 2024, 146, 1887-1893.
J. Y. Wang, R. T. Li, G. H. Zhang, C. Dong, Y. M. Fan, S. L. Yang, M. S. Chen, X. W. Guo, R. T. Mu, Y. X. Ning, M. R. Li, Q. Fu*, X. H. Bao*, Confinement-induced indium oxide nanolayers formed on oxide support for enhanced CO2 hydrogenation reaction, Journal of the American Chemical Society, 2024, 146, 5523-5531.
J. Q. Sang, T. F. Liu, P. F. Wei, H. F. Li, C. H. Liu, Y. Wang, Y. W. Rong, Q. Wang, G. X. Wang*, X. H. Bao*, Grain boundary generation via steering CuxP2Ox+5 precursor composition enhances CO electrolysis, Energy & Environmental Science, 2024, 17, 3594-3603.
R. T. Li, R. T. Mu, K. Li, Y. M. Fan, C. H. Liu, Y. X. Ning, M. R. Li, Q. Fu*, X. H. Bao*, Dynamically confined active silver nanoclusters with ultrawide operating temperature window in CO oxidation, Angewandte Chemie International Edition, 2024, 63, e202416852.
X. Z. Du, R. T. Li, H. Xin, Y. M. Fan, C. X. Liu, X. H. Feng, J. Y. Wang, C. Dong, C. Wang, D. Li, Q. Fu*, X. H. Bao*, In-situ dynamic carburization of Mo oxide with unprecedented high CO formation rate in reverse water-gas shift reaction, Angewandte Chemie International Edition, 2024, 63, e202411761.
X. Huang, D. Eggart, G. Q. Qin, B. B. Sarma, A. Gaur, J. Z. Yang, Y. Pan, M. R. Li, J. Q. Hao, H. F. Yu, A. Zimina, X. G. Guo, J. P. Xiao, J.-D. Grunwaldt*, X. L. Pan*, X. H. Bao*, Methyl radical chemistry in non-oxidative methane activation over metal single sites, Nature Communications, 2023, 14: 5716.
C. Dong, R. T. Mu, R. T. Li, J. Y. Wang, T. Y. Song, Z. P. Qu, Q. Fu*, X. H. Bao*, Disentangling local interfacial confinement and remote spillover effects in oxide-oxide interactions, Journal of the American Chemical Society, 2023, 145, 17056-17065.
H. F. Li, H. B. Li, P. F. Wei, Y. Wang, Y. P. Zang, D. F. Gao*, G. X. Wang*, X. H. Bao*, Tailoring acidic microenvironments for carbon-efficient CO2 electrolysis over a Ni-N-C catalyst in a membrane electrode assembly electrolyzer, Energy & Environmental Science, 2023, 16, 1502-1510.
Y. X. Shen, T. F. Liu, R. T. Li, H. F. Lv*, N. Ta, X. M. Zhang, Y. F. Song, Q. X. Liu, W. C. Feng, G. X. Wang*, X. H. Bao*, In situ electrochemical reconstruction of Sr2Fe1.45Ir0.05Mo0.5O6-δ perovskite cathode for CO2 electrolysis in solid oxide electrolysis cells, National Science Review, 2023, 10: nwad078
N. Li, Y. F. Zhu, F. Jiao, X. L. Pan*, Q. K. Jiang, J. Cai, Y. F. Li, W. Tong, C. Q. Xu, S. C. Qu, B. Bai, D. Y. Miao, Z. Liu, X. H. Bao*, Steering the reaction pathway of syngas-to-light olefins with coordination unsaturated sites of ZnGaOx spinel, Nature Communications, 2022, 13: 2742.
H. Xin, L. Lin, R. T. Li, D. Li, T. Y. Song, R. T. Mu, Q. Fu*, X. H. Bao*, Overturning CO2 hydrogenation selectivity with high activity via reaction-induced strong metal–support interactions, Journal of the American Chemical Society, 2022, 144, 4874-4882.
