报告时间：2014年12月11日（周四） 上午9:30 

　　报告地点：生物楼学术报告厅 

　　报告人：Prof. Peter J. Stang(Department of Chemistry, The University of Utah） 

　　报告人简介: 

　　Peter J. Stang 教授是国际著名化学家，美国国家科学院院士，美国艺术与科学院院士，美国化学会会士，美国科学促进会会士, 中国科学院外籍院士，匈牙利科学院外籍院士。美国国家科学奖、美国化学会F. A. Cotton杰出化学研究奖章、美国化学会Priestly奖、Fred Basolo无机化学杰出研究奖、美国化学会Linus Pauling奖章获得者。现任美国犹他大学化学系特聘教授，美国南加利福尼亚大学Locker碳氢化合物研究所高级研究员，美国化学会志 (JACS) 杂志主编，  

　　Peter J. Stang教授主要从事超分子自组装的研究，在配位化学、有机金属及高价碘化学等领域做出了重大的贡献，是分子构筑与分子组装领域最著名的科学家之一。Peter J. Stang教授已发表学术论文及综述500余篇，拥有多项国际专利, 在化学诸多领域产生了重要影响。 

　　报告简介: 

　　The use of just two types of building blocks, linear and angular, in conjunction with symmetry considerations allows the rational design of a wide range of metallocyclic polygons and polyhedra via the coordination motif. We have used this approach to self-assemble a variety of 2D supramolecular polygons such as triangles, rectangles, squares, hexagons, etc. as well as a number of 3D supramolecular polyhedra: truncated tetrahedra, triginal prisms, cubooctahedra and dodecahedra. More recently we have functionalized these rigid supramolecular scaffolds with differentelectroactive, host-guest, dendritic, and hydrophobic/hydrophilic moieties and have investigated the properties of these multifunctionalized supramolecular species. Additionally, we have begun to explore the self-assembly of 2D polygons and 3D polyhedra on a variety of surfaces with the aim of developing their potential to be used in device settings. These novel, supramolecular ensembles are characterized by physical and spectral means. The design strategy, formation, characterization and potential uses of these novel metallocyclic assemblies will be discussed, along with our recent results in crystal engineering. 

　　联系人：1101组  丁俊霞  9930