报告直播二维码
此次讲座由Wiley主办,于2020年6月29日19:00开始,授权蔻享学术进行网络直播。
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主 题:Advanced Materials in the New Age: New Directions to Reach New Heights in Materials Science Publishing主讲人:Jos Lenders单 位:Wiley
讲座介绍
Advanced Materials has a longstanding tradition of over 30 years in publishing the very best interdisciplinary materials-related science from researchers all around the globe working on a wide variety of subject areas. Last year, Advanced Materials received a record-breaking Impact Factor of 25.809, which is a testament to the high quality and broad importance of the scientific achievements of our authors and the reputation and visibility of the journal within the community. Jos Lenders has recently taken on the leadership of Advanced Materials as its Editor-in-Chief and will shed his light on current publication trends in the journal and the field of materials science in general. He will also discuss some exciting new developments in the Advanced family of journals and further hopes to be celebrating the new Impact Factor of Advanced Materials with you.
报告人介绍
Dr. Jos Lenders studied Chemical Engineering at Eindhoven University of Technology (Netherlands) , where he also obtained his PhD in the area of bioinspired materials chemistry and advanced electron microscopy. He has been with Advanced Materials since he joined Wiley in 2015, first as a peer-review editor working across various sister journals in the Advanced portfolio and since 2018 as Deputy Editor of Advanced Materials, Advanced Functional Materials, and Advanced Optical Materials. Since June 2020, he is the Editor-in-Chief of Advanced Materials.
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主 题:A New Era of Graphene and 2D Materials主讲人:冯新亮单 位:Technische Universität Dresden
讲座介绍
The discovery of graphene has inspired the development of other two-dimensional (2D) materials with a periodic network structure and topological thickness of the atomic/molecular level, They have emerged as the new paradigm of materials with enormous potentials, ranging from electronics and optoelectronics to energy technology membrane, sensing, and biomedical applications. However, to transform the fundamental investigations into practical industrial applications of graphene and 2D materials, many critical challenges remain to be overcome. The future research and application of these materials urgently call for the development of the chemistry of 2D materials, which need to play a critical enabling role. Here we will briefly introduce our newly established Collaborative Research Center on the Chemistry of Synthetic 2D Materials in Dresden, together with our recent efforts on the synthetic graphene nanostructures and 2D polymers.
报告人介绍
Prof. Feng is a full professor and the head of the Chair of Molecular Functional Materials at Technische Universität Dresden. He has published more than 510 research articles with an H-index of 117 (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 Chemistry Lectureship Award (2013) , ChemComm Emerging Investigator Lectureship (2014) , Fellow of the Royal Society of Chemistry (FRSC, 2014), Highly Cited Researcher (Thomson Reuters, 2014-2019) , Small Young 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) and member of the Academia Europaea (2019).
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主 题:Sub-1nm Ultrathin Nanocrystals主讲人:王训单 位:清华大学
讲座介绍
Sub-1 nm nanomaterials refer to the nanomaterials with a characteristic size less than 1 nm at least on one dimension. This characteristic size is close to the diameter of the polymer chain or DNA single strand, and equal to the size of the unit cell. Sub-1 nm nanomaterials have two main characteristics in theory. First, the intermolecular interaction between sub-1 nm nanomaterials can dominate their self-assembly process, which is similar to the self-assembly of polymers or biomacromolecules. The sub-1 nm nanomaterials show high machinability and their assemblies possess good mechanical properties because of the multi-level interactions. The sub-1 nm nanomaterials may become a breakthrough point to break the boundary between organic polymer materials and conventional inorganic nanomaterials. Second, the size of sub-1 nm nanomaterials is equal to the size of unit cell, so their surface atom ratio is close to 100%, and the interaction between them and the external field will be greatly enhanced, which may lead to excellent optical and catalytic properties. Thus, the sub-1 nm nanomaterials have greatly potential applications on the field of catalysis, optics, energy conversion and so on. In this talk, we briefly introduce the significance and research of the sub-1 nm nanomaterials and envision the future research direction and challenge.
报告人介绍
Prof. Wang received his PhD degree from the Department of Chemistry, Tsinghua University in 2004. He then joined the faculty of the Department of Chemistry, Tsinghua University in 2004, and was promoted to associate professor and full professor in 2005 and 2007, respectively. His current research interests include the synthetic methodology, formation mechanism, and properties of monodisperse nanocrystals. His main awards include ISHA Roy-Somiya Award (2018) , Changliang Professor (Ministry of Education, China, 2014) Science and Technology Award for Chinese Youth (2009) , National Fund for Outstanding Young Scientists (2007) and IUPAC Prize for Young Chemists (2005).
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