导读
近日,各高校院所相继开始发布2026年暑期学校、优秀大学生暑期夏令营活动通知,化学加特别整理化学相关暑期学校、夏令营,供大家参考,感兴趣的同学们快快申请。点击查看:
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2026年化学理论与机制复旦国际暑期学校报名开启
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聚焦分子理论,探索机制奥秘
CHEMISTRY
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摘要
由复旦大学化学系主办的“化学理论与机制复旦国际暑期学校”(2026年7月6日至7月22日)报名开启!期待与你一同深度探索化学理论与反应机制的学术魅力!
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化学国际暑期学校
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为加强国际学术交流与对话,构建高质量的基础学科拔尖人才培养体系,为优秀的研究生、高年级本科生和博士后提供一流的学术成长平台,复旦大学化学系每年推出不同主题的国际暑期学校。2026年的暑期学校将以“化学理论与机制”为主题,于7月6日至7月22日开设,通过前沿课程等丰富多彩的学术活动,共同探索、体验化学理论与机制的核心科学价值。
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CHMISTRY
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国际暑期学校简介
CHEMISTRY
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化学理论与机制是现代化学的核心基础领域,是阐释分子结构、化学键本质与化学反应微观过程的重要理论支撑,为物理化学、无机化学、催化化学等前沿方向的发展提供核心指导,同时推动功能材料、能源化学等领域的技术革新。今年,复旦大学化学系的暑期学校以“化学理论与机制”为主题,围绕理论化学前沿研究设置三大核心教学模块,覆盖团簇结构与理论催化、化学键与反应动力学、光谱技术及理论应用三大热门研究方向,精准对接当前国际理论化学领域的研究热点与发展趋势。
国际暑期学校将在2026年7月6日-7月22日于复旦大学校内开办,由复旦大学化学系主办,邀请了十余位来自国内外知名大学并享有国际学术声誉的专家学者,全英文集中讲授理论化学、化学键以及光谱学相关领域的前沿和热点,结合课堂讲座与研讨交流,传授化学理论与机制领域的基础知识并介绍最前沿的研究进展,为优秀的研究生、高年级本科生和博士后提供一流的学术成长平台。暑期学校以基础讲座、前沿研讨会等方式开展。
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课程简介及时间安排
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01
团簇结构与理论催化
Cluster Structure and
TheoreticalCatalysis
团簇科学是物理化学与材料化学的前沿交叉领域,是精准构建功能分子、设计高效催化体系的重要基础。本模块将系统讲解团簇化学的基础理论、团簇结构调控规律与电子结构特征,结合前沿科研成果介绍金属团簇、硼团簇、芳香团簇等典型团簇体系的构建与表征方法,重点讲解团簇催化的反应机理、理论模拟策略与应用场景,涵盖团簇材料设计、催化反应路径分析、理论催化模拟技术等前沿研究内容。
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化学键与反应动力学
Chemical Bond and
ReactionDynamics
化学键理论是现代化学的核心理论根基,反应动力学是阐释化学反应微观机制的关键研究方向。本模块聚焦主族化合物、过渡金属配合物的成键本质,讲解经典化学键理论与非经典成键模式、给体-受体键合等前沿理论,同时系统介绍小分子活化反应机理、金属-金属成键规律、无机体系电子结构特征,结合理论计算方法解析化学反应动力学过程与反应活性调控机制。
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光谱技术:应用与理论研究
Spectroscopic Technology:
Applications andTheoretical
Research
光谱技术是化学微观表征与机理研究的核心实验手段,是连接化学理论与实验研究的重要桥梁。本模块将讲解各类高端光谱检测技术的基本原理、设备应用与实验方法,重点介绍速度映射成像技术、弱束缚团簇光谱检测、大气痕量气体光谱传感、气溶胶光反应表征等前沿技术,结合理论模拟方法讲解光谱数据解析、分子间相互作用表征、激光外腔器件设计等研究内容,兼顾技术应用与理论机理研究。
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课程安排
SCHEDULE
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注:
1. 7月6日上午9时报到注册,7月22日下午5时结业离校
2. 课表安排会根据专家最新行程微调
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报名方式
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01
申请人条件
APPLICANT REQUIREMENTS
全球范围内,对化学理论与机制有兴趣,且具备相关学科和领域基础知识的在读本科生、研究生及博士后。
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费用说明
COST EXPLANATION
暑期学校免收学费,提供课程期间的中午餐食补贴。住宿费和交通费用自理。
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奖学金
SCHOLARSHIP
暑期学校项目将依据暑期学校期间表现,在结业时遴选约30位外校优秀学员,提供2000元奖学金,用于补助国际国内旅费和住宿费。
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申请流程
APPLICATION PROCEDURE
(a)非复旦大学的中国学生:登陆http://register.fudan.edu.cn/,搜索“2026年复旦大学旗舰型研究生国际暑期学校项目:化学理论与机制”,线上填写报名信息并上传英文或中文的个人简历,推荐使用Chrome浏览器。留学生的报名链接在https://istudent.fudan.edu.cn。
(b)复旦大学本校本科生:请登录暑期学期选课系统,选修《化学理论与机制》(Chemical Theory and Mechanism)课程,可获得对应的3学分(对于化学系学生,认定为进阶II修读学分)。
(c)复旦大学本校研究生:登陆http://register.fudan.edu.cn/,搜索“2026年复旦大学旗舰型研究生国际暑期学校项目:化学理论与机制”,线上填写报名信息并上传英文或中文的个人简历,推荐使用Chrome浏览器。修读本国际课程的化学系研究生将获得对应的3学分(专业选修课)。
第一轮截止时间:
留学生:北京时间2026年5月31日23:59(为签证申请预留时间)。
其他同学:北京时间2026年6月15日22时整。
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联系方式
CONTACT
联系人:许老师
联系电话:021-31242798
电子邮箱:luoyanx@fudan.edu.cn
2026年化学理论与机制复旦国际暑期学校网站:fiss-chemistry.fudan.edu.cn
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授课教师简介
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Peijun Hu
ShanghaiTech University
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胡培君教授是世界知名催化领域专家。他于1982年毕业于华东理工大学,1993年获英国剑桥大学博士学位,2004年起担任英国贝尔法斯特女王大学教授。2009年,他当选为爱尔兰皇家科学院院士,2023年加入上海科技大学物质科学与技术学院。他的主要研究方向包括物理化学、理论与计算催化,以及人工智能在催化和材料科学中的应用。长期以来,他致力于催化反应模拟与催化剂理论研究,在多相催化反应量子力学计算的实现与推进方面作出了重大贡献,尤其在多相催化基础微观理论的发展上成果显著,是国际理论催化领域具有重要影响力的学术带头人之一。在国际上,他率先采用密度泛函理论框架下的从头算总能量计算方法,成功解决了与催化剂相关的量子力学计算难题。他在国际主流学术期刊上发表研究论文300余篇,其中包括《自然》及其子刊11篇、《美国化学会志》30余篇、《德国应用化学》(国际版)11篇、《物理评论快报》4篇。在其发表的论文中,有26篇为高被引论文(近30年来在理论催化领域被引次数排名前5%)。他的H指数为55,论文总被引次数超过10000次,在该领域国际同行中处于领先地位。
Professor Peijun Hu is a world-renowned expert in catalysis. He graduated from East China University of Science and Technology in 1982, obtained his doctoral degree from the University of Cambridge, UK, in 1993, and has served as a Professor at Queen's University Belfast, UK, since 2004. He was elected a Member of the Royal Irish Academy in 2009 and joined the School of Physical Science and Technology at ShanghaiTech University in 2023. His main research interests cover physical chemistry, theoretical and computational catalysis, as well as the application of artificial intelligence in catalysis and materials science. He has long been engaged in research on catalytic reaction simulation and catalyst theory. He has made significant contributions to the implementation and advancement of quantum mechanical calculations for heterogeneous catalytic reactions, particularly the development of the fundamental microscopic theory of heterogeneous catalysis, and is one of the internationally influential academic leaders in the field of theoretical catalysis. Internationally, he pioneered the successful solution to quantum mechanical calculation problems related to catalysts by adopting ab initio total energy calculations within the density functional theory framework. He has authored over 300 research papers in major international academic journals, including 11 publications in Nature and its sister journals, more than 30 in Journal of the American Chemical Society, 11 in Angewandte Chemie International Edition, and 4 in Physical Review Letters. Among his publications, 26 are highly cited papers (ranking among the top 5% in citation counts in theoretical catalysis over the past 30 years). He holds an H-index of 55 with total citations exceeding 10,000, ranking among the top international peers in the field.
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David.H.Parker
Radboud University
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David H. Parker,荷兰拉德堡德大学终身教授、物理系主任,美国物理学会会士,中国教育部“长江学者奖励计划”讲席学者。本科和博士分别毕业于美国加州大学欧文分校、洛杉矶分校,在哥伦比亚大学、加州大学圣克鲁兹分校、荷兰拉德堡德大学历任助理教授、副教授、教授。常年致力于化学反应动力学研究,取得了一系列原创性科研成果。在世界上首次发明了离子速度成像(Velocity Map Imaging)技术,该技术在物理化学等众多研究领域产生了重要而深远的影响(单篇被引频次3500余次),有力地推动了学科的发展与进步。截至目前,Parker教授在高水平国际期刊上共发表SCI论文190余篇,包括:2篇Science、3篇Nature Chemistry(封面)、多篇Phys. Rev. Lett.、J. Phys. Chem. Lett.、Annu. Rev. Phys. Chem.等,在Web of Science核心合集中总引用8600余次,H因子46。出版学术著作6部,主持数个欧盟重大科研项目,持续获得欧盟研究委员会(ERC)和荷兰国家科学基金会(NWO)重点、重大项目资助。在英国皇家化学会、美国物理联合会等国际学术组织担任重要兼职并多次在国际学术会议上作大会邀请报告,荣获2018年度欧盟化学动力学会(MOLEC)、2019年度国际分子束会议(ISMB)及2024年度国际立体动力学会议高级研究成果奖。
Prof. David H. Parker is a tenured professor and Chair of the Department of Physics at Radboud University in the Netherlands. He is a Fellow of the American Physical Society and a Chair Professor under the Changjiang Scholars Program of the Ministry of Education of China. He received his bachelor’s degree from the University of California, Irvine, and his PhD from the University of California, Los Angeles. He has successively served as Assistant Professor, Associate Professor, and Professor at Columbia University, the University of California, Santa Cruz, and Radboud University in the Netherlands. Professor Parker has long been committed to research in chemical reaction dynamics and has achieved a series of original scientific results. He invented the technique of Velocity Map Imaging for the first time in the world, which has exerted an important and far-reaching impact on numerous research fields such as physical chemistry (with a single paper cited more than 3,500 times), strongly advancing the development and progress of the discipline. To date, Professor Parker has published more than 190 SCI papers in high-level international journals, including 2 in Science, 3 in Nature Chemistry (as cover articles), and multiple papers in Physical Review Letters, The Journal of Physical Chemistry Letters, and Annual Review of Physical Chemistry. His publications have received more than 8,600 citations in the Web of Science Core Collection, with an H-index of 46. He has authored 6 academic books and directed several major EU research projects, receiving continuous funding from key and flagship programs of the European Research Council (ERC) and the Netherlands Organization for Scientific Research (NWO). He holds important concurrent positions in international academic organizations such as the Royal Society of Chemistry and the American Institute of Physics, and has delivered numerous plenary and invited lectures at international academic conferences. His honors include the Senior Research Award of the European Molecular Beam Association (MOLEC) in 2018, the International Symposium on Molecular Beams (ISMB) Award in 2019, and the Senior Research Award of the International Symposium on Stereodynamics in 2024.
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Gernot Frenking
Philipps-Universität Marburg
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格诺特・弗伦金教授(Gernot Frenking)是德国马尔堡菲利普大学荣誉退休教授,国际知名理论化学家;同时担任西班牙圣塞瓦斯蒂安多诺斯蒂亚国际物理中心伊克巴斯克访问研究教授、中国南京工业大学访问研究教授。其研究方向为化学键本质,重点聚焦主族元素化合物与过渡金属配合物成键、含特殊化学键分子的成键分析,以及小分子活化反应机理。弗伦金教授1973年于亚琛工业大学获化学文凭,曾赴日本京都师从福井谦一开展研究,1979年获柏林工业大学博士学位,1984年完成理论有机化学任教资格论文,后在美国加州大学伯克利分校、斯坦福国际研究院等机构任职,1990年加入马尔堡大学,1998年受聘理论化学教授。他对现代化学键理论贡献突出,深化了配位键及非经典成键模式的认知,深刻影响主族元素与过渡金属体系的成键及反应性研究。曾获薛定谔奖章、埃里希・休克尔奖等多项荣誉,2008年当选英国皇家化学会会士。
Gernot Frenking, Professor Emeritus at Philipps-Universität Marburg, is a distinguished German theoretical chemist. He also serves as an Ikerbasque Visiting Research Professor at the Donostia International Physics Center in San Sebastián, Spain, and as a Visiting Research Professor at Nanjing Tech University, China. His research focuses on the nature of chemical bonding, particularly bonding in main-group compounds and transition-metal complexes, bonding analysis of molecules which possess unusual bonds and reaction mechanisms of small-molecule activation. Professor Frenking studied chemistry at RWTH Aachen, where he received his diploma in 1973. He then carried out research with Kenichi Fukui in Kyoto, Japan, and earned his doctorate from Technische Universität Berlin in 1979. He completed his habilitation in theoretical organic chemistry in 1984, held researcher postions in the United States, including at the University of California, Berkeley, and SRI International in Menlo Park, and joined Philipps-Universität Marburg in 1990. In 1998, he was appointed Professor of Theoretical Chemistry. Professor Frenking has made major contributions to modern chemical bonding theory. His work has advanced the understanding of dative bonding and other nonclassical bonding patterns, with lasting influence on the interpretation of bonding and reactivity in both main-group and transition-metal systems. He has received numerous honors, including the Schrödinger Medal and the Erich Hückel Prize, and has been a Fellow of the Royal Society of Chemistry since 2008.
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Lai-Sheng Wang
Brown University
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Lai-Sheng Wang教授,1982年获武汉大学化学学士学位,1990年获加州大学伯克利分校化学博士学位,随后在莱斯大学从事博士后研究。他曾任职于华盛顿州立大学与太平洋西北国家实验室,2009年加入布朗大学,现任布朗大学Jesse H.以及Louisa D. Sharpe Metcalf化学讲席教授,是实验物理化学家,主要研究方向为纳米团簇及溶液化学分子的气相研究。其团队结合光电子能谱、光电子成像、电喷雾电离与低温离子阱等技术,系统研究团簇与复杂分子离子的电子结构及化学键合特性,在光谱学、团簇科学与现代物理化学领域贡献卓著,带领团队率先发现并表征金团簇、芳香团簇与硼团簇,深化了纳米团簇成键机理与团簇基纳米材料的基础认知;同时开拓了自由多电荷阴离子及溶液复杂物种的气相光谱研究。其学术荣誉包括Earle K. Plyler奖、E. Bright Wilson光谱学奖与Herbert P. Broida奖。
Lai-Sheng Wang, is the Jesse H. and Louisa D. Sharpe Metcalf Professor of Chemistry at Brown University. He is an experimental physical chemist whose research focuses on nanoclusters and gas-phase studies of molecules derived from solution chemistry. His work combines photoelectron spectroscopy, photoelectron imaging, electrospray ionization, and cryogenic ion-trap methods to investigate the electronic structure and chemical bonding of clusters and complex molecular ions. Professor Wang received his B.S. in chemistry from Wuhan University in 1982 and his Ph.D. in chemistry from the University of California, Berkeley, in 1990. After postdoctoral research at Rice University, he held a joint appointment at Washington State University and Pacific Northwest National Laboratory before joining Brown University in 2009. Professor Wang has made major contributions to spectroscopy, cluster science, and modern physical chemistry. His group has played a leading role in the discovery and characterization of golden clusters, aromatic clusters, and boron clusters, advancing fundamental understanding of nanoclusters, chemical bonding, and cluster-based nanomaterials. He has also pioneered spectroscopic studies of free multiply charged anions and complex solution-derived species in the gas phase. His honors include the Earle K. Plyler Prize, the E. Bright Wilson Award in Spectroscopy, and the Herbert P. Broida Prize.
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Knut.A.Asmis
Universität Leipzig
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Knut.R.Asmis教授,现任莱比锡大学威廉・奥斯特瓦尔德物理与理论化学研究所物理化学教授,同时担任2721 号研究训练小组 “氢同位素” 发言人。他的研究方向为气相孤立团簇与单纳米颗粒的实验研究,重点涉及离子溶剂化、多相催化、反应中间体及气溶胶形成等领域。其课题组开发质谱与激光光谱学方法(包括低温离子阱振动光谱),用于探究团簇与纳米颗粒的结构、反应性及动力学特性。Asmis教授于弗里堡大学获得硕士学位与博士学位,在加州大学伯克利分校完成博士后研究,并于柏林自由大学取得教授资格论文特许任教资格。入职莱比锡大学前,他曾任职于柏林自由大学及马克斯・普朗克学会弗里茨・哈伯研究所,2014 年起担任莱比锡大学物理化学教授。Asmis教授在物理化学与分子光谱学领域贡献卓著,尤其在小分子聚集体光谱研究方面成果突出。他通过模型体系研究阐明了水中质子转移过程(包含格罗特斯机理),并从分子层面揭示了催化反应机理。为表彰其学术成就,他于 2023 年荣获德国本生学会范特霍夫奖。
Knut R. Asmis is Professor of Physical Chemistry at the Wilhelm-Ostwald Institute for Physical and Theoretical Chemistry at Universität Leipzig and Spokesperson of Research Training Group 2721 “Hydrogen Isotopes”. His research focuses on the experimental study of isolated clusters and single nanoparticles in the gas phase, especially in relation to ion solvation, heterogeneous catalysis, reactive intermediates, and aerosol formation. His group develops mass spectrometric and laser spectroscopic methods, including cryogenic ion trap vibrational spectroscopy, to investigate the structure, reactivity, and dynamics of clusters and nanoparticles. Professor Asmis received his diploma and doctorate from the Université de Fribourg, carried out postdoctoral research at the University of California, Berkeley, and completed his habilitation at Freie Universität Berlin. He later held research positions at Freie Universität Berlin and the Fritz Haber Institute of the Max Planck Society before joining Leipzig University, where he became Professor of Physical Chemistry in 2014. Professor Asmis has made important contributions to physical chemistry and molecular spectroscopy, in particular through his work on the spectroscopy of small molecular aggregates. His studies of model systems have helped clarify proton transfer in water, including the Grotthuss mechanism, and have provided molecular-level insight into catalytic processes. In recognition of these achievements, he was awarded the van’t Hoff Prize of the German Bunsen Society in 2023.
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John.E.McGrady
University of Oxford
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John E. McGrady教授是牛津大学无机化学系主任。本科毕业于牛津大学St Catherine’s College,随后赴Australian National University攻读博士,并于1994年获得学位,此后在University of York任讲师。2006年赴University of Glasgow担任WestCHEM教授,2009年回到牛津任现职。McGrady教授长期从事无机体系电子结构研究,重点关注金属团簇、金属—金属键及理论与实验的结合,在Zintl团簇的生长机制与反应性研究方面具有重要影响力。其课题组研究涵盖分子与固态过渡金属化学及主族元素反应性,方法上从扩展Hückel等经验理论到多组态自洽场(CASSCF)等高水平计算手段均有应用。
John E. McGrady is a professor at the University of Oxford and Head of the Department of Inorganic Chemistry. He completed his undergraduate studies at St Catherine’s College, Oxford, before pursuing his PhD at the Australian National University, where he obtained his degree in 1994. He subsequently worked as a lecturer at the University of York. In 2006, he joined the University of Glasgow as a West CHEM Professor, and returned to Oxford to take up his current position in 2009. Professor McGrady has long been engaged in research on the electronic structure of inorganic systems, with a focus on metal clusters, metal–metal bonding, and the integration of theory and experiment. He has made significant contributions to the study of the growth mechanisms and reactivity of Zintl clusters. His research group covers molecular and solid-state transition metal chemistry as well as main-group element reactivity, employing computational methods ranging from empirical approaches such as extended Hückel theory to high-level techniques including complete active space self-consistent field (CASSCF) calculations.
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Wolfgang Jäger
University of Alberta
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沃尔夫冈・耶格尔教授(Wolfgang Jäger)1989年于德国基尔大学获化学博士学位。此后在加拿大不列颠哥伦比亚大学担任博士后及研究助理,1995年加入加拿大阿尔伯塔大学化学系,2001年晋升为副教授,2003年升任正教授。耶格尔教授的研究方向多元,主要包括利用光谱技术研究弱相互作用复合物与团簇的分子间作用力、基于红外固态二极管激光的大气痕量气体检测技术、气溶胶生成光反应模拟,以及采用微机电系统(MEMS)技术设计外腔激光器。相关成果已发表论文200余篇,并在国内外学术会议上多次受邀报告。凭借突出学术成就,他于2002年获加拿大自然科学与工程研究理事会斯泰西纪念奖学金;2004年受聘一级加拿大研究主席(团簇科学方向),并于2011年连任;2008年当选加拿大皇家学会院士。2009至2010年,他凭借洪堡奖学金在德国柏林马克斯・普朗克学会弗里茨・哈伯研究所进行学术休假研究。
Wolfgang Jäger received his PhD degree in Chemistry from the Christian Albrechts University in Kiel, Germany, in 1989. He joined the Department of Chemistry at the University of Alberta, Edmonton, Canada, in 1995 after spending time as postdoctoral fellow and research associate at the University of British Columbia, Vancouver, Canada. He was promoted to Associate Professor in 2001 and to the rank of Full Professor in 2003. Professor Jäger’s research is multifaceted and includes fundamental studies of intermolecular interactions using spectroscopic investigations of weakly bound complexes and clusters, development of atmospheric trace gas sensing techniques that utilize solid state infrared diode lasers, photoreaction chamber studies of aerosol formation, and design and fabrication of external cavity lasers using MEMS technology. His work has resulted in more than 200 publications and numerous presentations at national and international meetings. For his scientific achievements, Professor Jäger was awarded the NSERC Steacie Memorial Fellowship in 2002, in 2004 he became a Tier I Canada Research Chair in Cluster Science which was renewed in 2011, and in 2008 he was elected Fellow of the Royal Society of Canada. From 2009 to 2010, he spent a sabbatical year at the Fritz Haber Institute of the Max Planck Society in Berlin, Germany, which was funded by a prestigious Humboldt Fellowship.
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Yijing Yan
Hong Kong University of
Science and Technology
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严以京教授于1982年获复旦大学化学学士学位,1989年获美国罗切斯特大学化学博士学位。在Shaul Mukamel教授的指导下,他从事凝聚态分子光谱的理论研究。1988年至1994年,他先后在美国罗切斯特大学和加利福尼亚大学圣地亚哥分校开展博士后研究,并担任副研究员。1994年,他加入香港科技大学任教,2010年起任职于中国科学技术大学。严教授曾获国家自然科学基金委员会海外杰出青年科学基金、中国科学院海外杰出科学家奖,同时也是美国物理学会会士。
Professor Yan Yijing earned his Bachelor of Science degree in Chemistry from Fudan University in 1982 and his PhD in Chemistry from the University of Rochester, USA, in 1989. Under the supervision of Professor Shaul Mukamel, he engaged in theoretical research on condensed molecular spectroscopy. From 1988 to 1994, he conducted postdoctoral research and worked as an Associate Researcher successively at the University of Rochester and the University of California, San Diego, USA. He joined the Hong Kong University of Science and Technology as a faculty member in 1994 and began his tenure at the University of Science and Technology of China in 2010. Professor Yan was awarded the Overseas Outstanding Young Scientist Award by the National Natural Science Foundation of China and the Overseas Distinguished Scientist Award by the Chinese Academy of Sciences. He is also a Fellow of the American Physical Society.
来源:复旦大学
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