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IAM星火大讲堂

IAM星火大讲堂第20期:德国马普学会微结构物理研究所所长、德累斯顿工业大学讲席教授、德国国家工程院院士、欧洲科学院院士冯新亮教授
添加时间:2023/04/17 发布:
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报告时间:2023年4月19日(星期三)16:00
报告地点:科技创新大楼5楼报告厅

报 告 人:冯新亮 院士

邀 请 人:黄 维 院士

报告题目:Advances in Organic 2D Crystals -- From On-Water Surface Chemistry to Functional Applications


报告摘要:


Advances in Organic 2D Crystals--

From On-Water Surface Chemistry to Functional Applications

Xinliang Feng

Max Planck Institute of Microstructure Physics & Technische Universitaet Dresden; Germany

Email:xinliang.feng@tu-dresden.de


In contrast to the tremendous efforts dedicated to the exploration of graphene and inorganic 2D crystals such as metal dichalcogenides, boron nitride, black phosphorus, metal oxides, and nitrides, there has been much less development in organic 2D crystalline materials, including the bottom-up organic/polymer synthesis of graphene nanoribbons, 2D metal-organic frameworks, 2D polymers/supramolecular polymers, as well as the supramolecular approach to 2D organic nanostructures. One of the central chemical challenges is to realize a controlled polymerization in two distinct dimensions under thermodynamic/kinetic control in solution and at the surface/interface. In this talk, we will present our recent efforts in bottom-up synthetic approaches toward novel organic 2D crystals with structural control at the atomic/molecular level. On-water surface synthesis provides a powerful synthetic platform by exploiting surface confinement and enhanced chemical reactivity and selectivity. We will particularly present a surfactant-monolayer assisted interfacial synthesis (SMAIS) method that is highly efficient in promoting the programmable assembly of precursor monomers on the water surface and subsequent 2D polymerization in a controlled manner. 2D conjugated polymers and coordination polymers belong to such material classes. The unique 2D crystal structures with possible tailoring of conjugated building blocks and conjugation lengths, tunable pore sizes and thicknesses, as well as impressive electronic structures, make them highly promising for a range of applications in electronics, optoelectronics, and spintronics. Other physicochemical phenomena and application potential of organic 2D crystals, such as in membranes, will also be discussed.


个人简介:

Xinliang Feng

Professor, Max-Planck Institute of Microstructure Physics & Technische Universität Dresden

Prof. Feng is a director at the Max-Planck Institute of Microstructure Physics and the head of the Chair of Molecular Functional Materials at Technische Universität Dresden, and. He has published more than 710 research articles which have attracted around 94000 citations with H-index of 153 (Google Scholar).

He has been awarded several prestigious prizes such as IUPAC Prize for Young Chemists (2009), European Research Council (ERC) Starting Grant Award (2012),Journal of Materials ChemistryLectureship Award (2013),ChemCommEmerging Investigator Lectureship (2014), Fellow of the Royal Society of Chemistry (FRSC, 2014), Highly Cited Researcher (Thomson Reuters, 2014-2022),SmallYoung Innovator Award (2017), Hamburg Science Award (2017), EU-40 Materials Prize (2018), ERC Consolidator Grant Award (2018). He is a member of the European Academy of Sciences (2019), Academia Europaea (2019), and German Academy of Science and Engineering (acatech, 2021). He is an Advisory Board Member forAdvanced Materials, Chemical Science, Journal of Materials Chemistry A, ChemNanoMat, Energy Storage Materials, Small Methods, Chemistry -An Asian Journal, Trends in Chemistry, etc. He is the Head of ESF Young Research Group "Graphene Center Dresden", Working Package Leader of WP Functional Foams & Coatings for European Commission’s pilot project “Graphene Flagship”, and spokesperson for the DFG Collaborative Research Center for the Chemistry of Synthetic 2D Materials (2020-).


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