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报告题目 (Title):基于碳纳米环、氟代环己烷和有机磷酸酯的超分子调控/Supramolecular Control: Strategic Uses of Carbon Nanohoops, Fluorinated Cyclohexanes and Organophosphates 报告人 (Speaker): Max von Delius 教授(德国乌尔姆大学) 报告时间 (Time):2024年5月13日(周一) 15:00 报告地点 (Place):校本部Ha102 邀请人(Inviter):王翔 教授 主办部门:理学院化学系 报告摘要: In this talk, I will present recent work by our group on the use of supramolecular chemistry to address challenges in synthesis, materials science and systems chemistry. Control over the selectivity of fullerene bis-addition reactions was achieved by encapsulating C60 in a three-shell complex (“Russian Doll”). Thanks to the combined template effects of a self-assembled cage and nanohoop [10]CPP,[1a] the C60 trans-3 bis-adduct was obtained with ideal chemo-, itero- and regioselectivity,[1b] which has recently enabled the synthesis of unprecedented C60/[10]CPP [2]catenanes. Control over the length of self-assembled nanofibers was achieved by the living supramolecular polymerization of all-cis fluorinated cyclohexanes.[2a] The exceptionally high dipole moment of the C6H6F5OR motif[2b] gave rise to folded monomers that only polymerized into nanofibers of double-helical topology upon addition of seeds. Control over the persistence of supramolecular assemblies over time was achieved in chemically-fuelled phosphoramidate and acylphosphate systems. Generating chemically-driven steady states from organophosphates is far from trivial, but holds great promise for the creation of chemically-driven molecular machines and transient self-assemblies. 报告人简介: Max von Delius is Full Professor of Organic Chemistry at Ulm University (Germany). He obtained his Ph.D. at the University of Edinburgh (U.K., with David A. Leigh) and was a Postdoctoral Fellow at the University of Toronto (Canada, with Vy M. Dong), before establishing his independent research group at FAU Erlangen-Nürnberg (Germany). His research interests include supramolecular chemistry, systems chemistry and the synthesis of functional organic materials. He has been awarded an ERC Starting Grant and has received the Cram-Lehn-Pedersen Prize. |
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