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杨四海

李革赵宁讲席教授

无机化学 多孔材料

办公室:
办公室电话:
电子信箱:Sihai.Yang@pku.edu.cn
课题组网站:建设中

学术简历

  • 2023 – 今 kaiyun体育官方网站 教授
  • 2015 – 2023 曼彻斯特大学化公司 副教授、教授
  • 2011 – 2015 诺丁汉大学化公司 研究员、助理教授
  • 2007 – 2010 诺丁汉大学 无机化学博士
  • 2003 – 2007 kaiyun体育官方网站 化学学士

学术兼职

  • 英国钻石同步辐射中心、卢瑟福国家实验室、欧洲同步辐射中心、美国橡树岭国家实验室 评审委员
  • 英国国家科技设施科学与工程委员会委员
  • National Science Review、Science Bulletin、科学通报 编委

获奖经历

  • The RSC Harrison-Meldola Memorial Prize, 2020
  • CCDC Chemical Crystallography Prize for Younger Scientists, 2019
  • ISIS Neutron & Muon Source Impact Awards, 2019
  • The RSC and Institute of Physics BTM Willis Prize for Young Scientist, 2013
  • Nottingham Research Fellowship, 2014-2017
  • Diamond Young Investigator Award, 2012
  • Honourable Mention Award of International Union of Pure and Applied Chemistry (IUPAC) Prize for Young Chemists, 2012
  • Leverhulme Early Career Research Fellowship, 2011-2014
  • The EPSRC PhD Plus Research Fellowship, 2011
  • University of Nottingham Endowed Postgraduate Prize, 2010
  • EPSRC Dorothy Hodgkin Postgraduate Award, 2007-2010
  • 中国国家留学基金委自费留员工奖,2009
  • kaiyun体育官方网站学术希望之星,2007
  • kaiyun体育官方网站学术创新奖,2006

科研领域及兴趣:

知识来自于观测。在多孔材料中构建多重活性位点可以形成独特的观测平台来研究和重新定义纳米空间内小分子的化学和反应活性。我们课题组开发基于金属有机框架(MOF)和沸石分子筛的新型多孔材料,并研究它们在清洁空气技术、催化、生物质转化、分离和导电中的应用。我们课题组致力于发展先进的结构和分子谱学技术,例如原位中子散射和同步辐射X射线衍射和光谱学在分子层面上揭示主客体化学过程。

我们课题组的研究涉及材料的设计,合成和表征,以及在国家实验室进行的动态稳态结构研究,从而细致了解新材料在分子水平上的功能性。近期研究成果包括开发了新型分子筛催化剂并揭示一系列重要催化反应的起源,以及开发了新型金属有机框架材料及在对空气污染物(如CO2,SO2和NOx)清除和有机化合物分离的应用。

代表性论文:

  1. Direct photo-oxidation of methane to methanol over a mono-iron-hydroxyl site. B. An, Z. Li, Z. Wang, X. Zeng, X. Han, Y. Cheng, A. M. Sheveleva, Z. Zhang, F. Tuna, E. J. L. McInnes, M. D. Frogley, A. J. Ramirez-Cuesta, L. Natrajan, C. Wang, W. Lin, S. Yang* and M. Schröder*. Nature Materials 2022, 21, 932-938.
  2. Control of zeolite pore interior for chemoselective alkyne/olefin separations. Y. Chai, X. Han, W. Li, S. Liu, S. Yao, C. Wang, W. Shi, I. da-Silva, P. Manuel, Y. Cheng, L. D. Daemen, A. J. Ramirez-Cuesta, C. C. Tang, L. Jiang, S. Yang*, N. Guan and L. Li*. Science 2020, 368, 1002-1006.
  3. Quantitative production of butenes from biomass-derived γ-valerolactone over a new hetero-atomic MFI zeolite. L. Lin, A. M. Sheveleva, I. da Silva, C. M.A. Parlett, Z. Tang, Y. Liu, M. Fan, X. Han, J. H. Carter, F. Tuna, E. J. L. McInnes, Y. Cheng, L. L. Daemen, S. Rudić, A.J. Ramirez-Cuesta, C.C. Tang and S. Yang*. Nature Materials 2020, 19, 86-93.
  4. Capture of nitrogen dioxide and conversion to nitric acid in a porous metal-organic framework. J. Li, X. Han, X. Zhang, A. M. Sheveleva, Y. Cheng, F. Tuna, E. J. L. Mcinnes, L. McCormick, S. J. Teat, L. L. Daeman, A. J. Ramirez-Cuesta, M. Schröder* and S. Yang*. Nature Chemistry 2019, 11, 1085-1090. Journal Cover Article.
  5. Reversible coordinative binding and separation of sulphur dioxide in a robust metal-organic framework with open copper sites. G. L. Smith, J. E. Eyley, X. Han, X. Zhang, J. Li, N. M. Jacques, H. G.W. Godfrey, S. P. Argent, L. J. McCormick, S. J. Teat, Y. Cheng, M. D. Frogley, G. Cinque, S. J. Day, C. C. Tang, T. L. Easun, S. Rudić, A. J. Ramirez-Cuesta, S. Yang* and M. Schröder*. Nature Materials 2019, 18, 1358-1366. 
  6. Reversible adsorption of nitrogen dioxide within a robust metal-organic framework. X. Han, H. G.W. Godfrey, L. Briggs, A. J. Davies, Y. Cheng, L. L. Daemen, A. M. Sheveleva, F. Tuna, E. J.L. McInnes, J. Sun, C. Drathen, M. W. George, A. J. Ramirez-Cuesta, K. M. Thomas, S. Yang* and M. Schröder*. Nature Materials 2018, 17, 691-696.
  7. Supramolecular Binding and Separation of Hydrocarbons within a Functionalised Porous Metal-Organic Framework. S. Yang*, A.J. Ramirez-Cuesta, R. Newby, V. Garcia-Sakai, P. Manuel, S.K. Callear, S.I. Campbell, C.C. Tang and M. Schröder*. Nature Chemistry 2015, 7, 121-129. Journal Cover Article.
  8. Selectivity and Direct Visualisation of Carbon Dioxide and Sulphur Dioxide in a Decorated Porous Host. S. Yang*, J. Sun, A.J. Ramirez-Cuesta, S.K. Callear, W.I.F. David, D.P. Anderson, R. Newby, A.J. Blake, J.E. Parker, C.C. Tang and M. Schröder*. Nature Chemistry 2012, 4, 887-894. Journal Cover Article.
  9. A Partially Interpenetrated Metal–Organic Framework for Selective Hysteretic Sorption of Dioxide. S. Yang*, X. Lin, W. Lewis, M. Suyetin, E. Bichoutskaia, J.E. Parker, C.C. Tang, D.R. Allan, P. Hubberstey, N.R. Champness, K.M. Thomas, A.J. Blake and M. Schröder*. Nature Materials 2012, 11, 710-716.
  10. Cation-Induced Kinetic Trapping and Enhanced Hydrogen Adsorption in a Modulated Anionic Metal Organic Framework. S. Yang, X. Lin, A.J. Blake, G.S. Walker, P. Hubberstey, N.R. Champness* and M. Schröder*. Nature Chemistry 2009, 1, 487-493.
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