Klaus Müllen教授和Xinliang Feng教授 (来源: Thomas Hartmann, Fotodesign)
新华社柏林6月27日电(记者田颖)德国2017年度汉堡科学奖日前揭晓。因为在石墨烯研究领域的突出贡献,德国德累斯顿工业大学讲席教授、上海交通大学特聘教授冯新亮与德国科学家克劳斯·米伦共获该奖项。
汉堡科学奖主办方汉堡科学与人文学院认为,冯新亮和米伦的研究增进了人们对石墨烯的认识,且二人以应用为导向的研究有助于开发能量密度高、充电时间短、稳定时间长的电池和超级电容器。
冯新亮接受新华社记者采访时介绍,目前全球石墨烯应用研究还处于起步阶段,他的研究团队在高质量石墨烯的制备、加工、合成方面获得了原创性成果,未来可作为辅助材料用于锂电池和超级电容器的生产,提高锂电池和超级电容器存储容量,延长其寿命。这将助推手机和电动汽车等行业发展。
共获此奖的科学家米伦曾于1989年至2016年担任德国马克斯·普朗克学会聚合物研究所主任,目前在德国美因茨大学古滕贝格研究学院担任研究员。
石墨烯自2004年发现以来被视为材料中的明日之星。欧盟2013年启动“石墨烯旗舰”项目,将在未来10年内获得10亿欧元经费,是欧洲迄今规模最大的研究计划之一。
汉堡科学奖由汉堡科学与人文学院于2009年设立,每两年颁发一次,奖金10万欧元,旨在奖励对社会应用有重要意义的高水平研究。本届汉堡科学奖以提高能源效率为主题,共有来自全德10个项目参加角逐。
冯新亮教授简介
冯新亮,男,1980年生于安徽歙县,2001年获得中国地质大学学士学位,2004年获得上海交通大学硕士学位,同年赴德国马普高分子研究所深造,2008年获博士学位。德国德累斯顿工业大学首席教授、在德国获得化学学科终身教职的华人第一人 。2011年受聘于上海交通大学,现任上海交通大学化学化工学院教授。
人物任职:
长期担任Nature, Nature Materials, Nature Nanotechnology, Nature
Chemistry, Journal of the American Chemical Society, Angewandte Chemie International Edition, Nano Letters, Advanced Materials, Chemical Society Reviews, ACS Nano, Small, Chemical Communications, Chemistry of Materials, Organic Letters, Journal of the Organic Chemistry, Chemistry-A European Journal, ChemSusChem, ChemPhysChem, Maromolecular Rapid Communications, Journal of Material Chemistry, New Journal of Chemistry, Chemistry-An Asia Journal,ACS Applied Materials & Interfaces, Energy & Environmental Science, Organic Electronics等著名学术期刊审稿人。
其中任Journal of the American Chemical Society和Angewandte Chemie International Edition专职评判审稿人。任美国自然科学基金,德国DFG自然科学基金,欧盟ESF基金,以色列自然科学基金,意大利自然科学基金等评审员。自2011年起担任Nature系列杂志Scientific Reports编委。主要学术任职有美国化学会会员、德国化学会会员、德国Mainz高分子会会员等。
研究方向:
冯新亮的研究方向涵盖高分子、有机、物理和材料化学等多个交叉领域。例如基于芳香耦联的有机合成方法学,共轭pi-体系分子的有机设计和合成,基于pi-体系分子的超分子化学,二维纳米石墨烯的合成研究,盘状液晶分子的合成和自组织研究,设计合成共轭寡聚物和高分子以及在有机电子学器件的测试和表征研究(主要基于有机发光,场效应晶体管和有机薄膜太阳能电池材料),宏量制备高质量二维石墨烯材料研究,合成水溶和油溶可加工石墨烯研究,基于石墨烯的二维纳米能源材料和电子器件研究,基于石墨烯电极材料在太阳能电池和场效应晶体管器件的应用研究,有机和高分子多孔材料的合成和应用研究(主要包括储氢和催化材料),可控纳米结构功能碳材料、有机/无机杂化材料的设计合成及其在能源储存和转化的应用研究(主要基于超级电容器,锂离子电池,光解水,燃料电池电极材料和催化剂的研究)等。
主要学术成果:
包括首次报道了自下而上化学可控宏量制备高质量、无缺陷且边缘结构确定的单根石墨烯纳米带;首次报道了以氧化石墨烯为模板来复制合成其他二维功能材料及其在能源存储领域的关键应用;首次研究合成了新型的具有三倍对称性、三角形分子以及锯齿边缘的盘状石墨烯片段,从化学角度提供了纳米石墨烯的新型合成路线和设计方法;首次提出和证明了控制盘状液晶分子空间螺旋堆积排列结构对一维载流子传导体系在有机电子学性能的至关重要影响;开拓了以氧化石墨烯或者纳米石墨烯分子为前驱体制备高导电率石墨烯膜的新技术;创造性地研究了基于有机和有机金属前驱体的结构可控的高分子多孔材料、石墨烯和碳/金属杂化材料,为新型高效储氢,锂离子电池,电容器和燃料电池材料的研究提供了新的思路等。
论文论著:
冯新亮发表学术论文100余篇,仅在国际顶尖化学和材料学术杂志 (影响因子>8)上共发表学术论文45篇, 其中Nature 1篇,Nature Materials 1篇, Nature Communications 1篇,Angew. Chem. Int. Ed 12篇, Nano Letters 1篇, J. Am. Chem. Soc 13篇, Adv. Mater 13篇。 其中代表性研究论文有
1. Cai J, Ruffieux P, Jaafar R, Bieri M, Braun T, Blankenburg S, Muoth M, Seitsonen A P, Saleh M, Feng X L, Müllen K, Fasel R. Atomically precise bottom-up fabrication of graphene nanoribbons[J]. Nature, 2010, 466: 470-473.
2. Liu R L, Wu D Q, Feng X L, Müllen K. Nitrogen-doped ordered mesoporous graphitic arrays (NOMGAc) with high electrocatalytic activity for oxygen reduction[J]. Angew Chem Int Ed, 2010, 49: 2565-2569等。
获奖情况:
董氏东方奖学金, 上海交通大学 (2003)
玛丽。居里夫人奖学金, (2005-2006)
国家优秀留学生奖, (2007-2008)
国际纯粹与应用化学联合会 (IUPAC) 2009年度青年化学家奖
第三届欧洲青年化学家奖(决赛选手,2010年)
《德国应用化学》(Angewandte Chemie) 2010年度最佳审稿顾问 (2011年)
承担科研项目(2008-2013年来除承担马普协会每年固定科研项目,2009年至今还主持或承担欧盟,德国以及企业界十多项重要研究课题,总数额达1000万欧元以上)
EnerChem (Max Planck Society), 2008-2013 (马普协会重大研究基金)
DFG Priority Program SPP 1355, 2009-2012 (德国自然科学重点基金)
DFG MU 334/32-1, 2009-2011 (德国自然科学基金)
DFG Priority program SPP 1459 (2010-2013) (德国自然科学重点基金)
ESF Project GOSPEL (Ref Nr. 09-EuroGRAPHENE-FP-001), 2010-2013 (欧盟自然科学重点基金)
BMBF Project Graphenoid, 2010-2013 (德国教育科技部重大基金)
BMBF Project LiBZ, 2010-2013 (德国教育科技部重点基金)
JSPS-DFG Joint Project Nanoelectronics, 2010-2013 (日本JSPS-德国自然科学合作基金)
FP7-PEOPLE-2010-ITN Project 264694 GENIUS, 2011-2014 (玛丽-居里自然科学重点基金)
FP7-ENERGY-2010-FET Project 256617 MOLESOL, 2011-2014(玛丽-居里自然科学重点基金)
ERC project, 2011-2016 (欧洲研究委员会)
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BASF project of graphene, 2009-2012 (巴斯夫企业合作基金)
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Hamburg Science Award 2017 goes to Xinliang Feng and Klaus Müllen
TECHNISCHE UNIVERSITÄT DRESDEN
PUBLIC RELEASE:
This functional material, which - due to its various properties - has since its discovery in 2004 been considered as the material of the future, is especially suitable to be used in batteries and supercapacitors.
This is due to its high energy storage capacity. Furthermore, graphene can be used for more efficient catalysts in the reaction of oxygen reduction reaction and hydrogen generation, and allows for a new generation of semiconductors. With their fundamental research of carbon materials, Müllen and Feng have decisively influenced the synthesis and processing of carbon materials and thus made a significant contribution to the better understanding of this material. Moreover, Müllen and Feng's application-oriented research made it possible to develop highly topical energy-relevant components, such as supercapacitors and batteries with a high energy density, short charging time, and high long-term stability: An important step towards utilisation by the society.
Since August 2014, Xinliang Feng holds the Strategic Chair for Molecular Functional Materials of the Cluster of Excellence Center for Advancing for Electronics (cfaed) Dresden at Technische Universität Dresden. Previously, Feng worked as group leader also at MPI-P, where he received his doctorate in 2008. He obtained his Bachelor's degree in analytical chemistry in 2001 and his Master's degree in organic chemistry in 2004. The award-winning scientists received, inter alia, an ERC Starting Grant Award by the European Research Council; he is fellow of the Royal Society of Chemistry (FRSC, 2014), and one of the work package leaders of the EU pilot project "Graphene Flagship".
From 1989 until 2016, Klaus Müllen was Director at Max Planck Institute for Polymer Research (MPI-P) in Mainz and headed the Department of "Synthetic Chemistry". The award-winning chemist received, among others, the Max Planck Research Award, the Polymer Science Award by the American Chemical Society, the Adolf-von-Baeyer-Denkmünze by Gesellschaft Deutscher Chemiker and the Carl-Friedrich-Gauß-Medaille. Currently Müllen is fellow at the Gutenberg Research College and heads the Emeritus Research Group "Graphenes" at MPI-P. He studied chemistry at University of Cologne and was granted his doctorate by University of Basel. He obtained his habilitation at ETH Zurich.
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Media inquiries:
Catherine Andresen
Akademie der Wissenschaften in Hamburg
Presse- & Öffentlichkeitsarbeit
Phone: +49/40/42 94 86 69 - 24
Mail: catherine.andresen@awhamburg.de
http://www.
Prof. Xinliang Feng
Center for Advancing Electronics Dresden / Technische Universität Dresden
cfaed Chair of Molecular Functional Materials
01062 Dresden
Phone: +49 351 463-43251
Mail: xinliang.feng@tu-dresden.de
http://www.
The Academy of Sciences and Humanities in Hamburg
The Academy of Sciences and Humanities in Hamburg was founded by the Federal State of Hamburg in 2004. It aims to promote interdisciplinary research across universities and non-university research establishments and it advocates dialogue between academia, the public, and politics. Members of the Academy are outstanding scientists from Northern Germany. They are not organised by disciplines, but rather in interdisciplinary working groups. The members of these working groups plan and implement projects on fundamental scientific issues and socially significant questions relating to the future. The Academy promotes cooperation between disciplines, universities and scientific institutions in the region and aims to strengthen the visibility of the North German scientific region. The basic facilities of the Academy are financed by funds from the Free and Hanseatic City of Hamburg. The initial funding of the academy from 2005 to 2007 was made possible by donations from the Hamburgische Stiftung für Wissenschaften, Entwicklung und Kultur Helmut and Hannelore Greve (Hamburg Foundation for the Sciences, Development and Culture Helmut and Hannelore Greve). The Academy of Sciences and Humanities in Hamburg is the youngest member of the Union of the German Academies of Sciences and Humanities.
cfaed
cfaed is a microelectronics research cluster funded by the German Excellence Initiative. It comprises 11 cooperating institutes in Saxony. About 300 scientists from more than 20 countries investigate new technologies for electronic information processing. These technologies are inspired by innovative materials such as silicon nanowires, carbon nanotubes or polymers or based on completely new concepts such as the chemical chip or circuit fabrication methods by self-assembling structures such as DNA-Origami. The orchestration of these new devices into heterogeneous information processing systems with focus on their resilience and energy-efficiency is also part of cfaed's research program which comprises nine different research paths.
参考文章:
(1)华人科学家石墨烯研究在德获奖(来源:新华社)
(2)汉堡科学奖官网
(3)上海交大冯新亮教授石墨烯研究获得德国汉堡科学奖!(来源:新材料)
(4)上海交通大学官网
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