报告时间:2019年5月13日(星期一)上午9:00-10:00
报告地点:能源基础楼一楼会议室
报告人:Martin Oestreich教授,柏林工业大学
报告摘要:
This talk tells the story of how our work on tamed silicon cations led us to introduce the new concept of ionic transfer hydrosilylation, even with monosilane! The electron-deficient boron Lewis acid tris(pentafluorophenyl)borane catalyzes the release of hydrosilanes from cyclohexa-2,5-dien-1-yl-substituted silanes. The same boron catalyst will then activate the Si-H bond for the reaction with representative pi- and sigma-donating substrates. The net transformation is a transfer hydrosilylation. That strategy also enables the related hydrogenation and even transfer hydrocyanation, and has been extended to Br?nsted acid-catalyzed transfer hydrohalogenation processes.
The catalytic generation of silylium ions by cooperative Si-H bond activation will also be presented, including a detailed mechanistic analysis of the heterolytic Si-H bond cleavage. The new catalytic entry into these main-group electrophiles is of broad synthetic utility as highlighted by electrophilic C-H bond silylation, borylation, and stannylation. Also, additional approaches to Friedel-Crafts-type C-H silylation and borylation will be discussed.
报告人简介:
Martin Oestreich is Professor of Organic Chemistry at the Technische Universit?t Berlin. His appointment was supported by the Einstein Foundation Berlin. He received his diploma degree with Paul Knochel (Marburg, 1996) and his doctoral degree with Dieter Hoppe (Münster, 1999). After a two-year postdoctoral stint with Larry E. Overman (Irvine, 1999-2001), he completed his habilitation with Reinhard Brückner (Freiburg, 2001-2005) and was appointed as Professor of Organic Chemistry at the Westf?lische Wilhelms-Universit?t Münster (2006-2011). He also held visiting positions at Cardiff University in Wales (2005), at The Australian National University in Canberra (2010), and at Kyoto University (2018). Martin Oestreich’s research focuses on main-group elements, silicon in particular, in synthesis and catalysis. His early work centered around the use of silicon-stereogenic silicon reagents in asymmetric catalysis, and his laboratory continues to employ them as stereochemical probes in mechanistic investigations. His research group made fundamental contributions to catalytic carbon-silicon bond formation with nucleophilic and, likewise, electrophilic silicon reagents, and Martin Oestreich is probably best known for his work in silylium-ion chemistry. Recent accomplishments of his laboratory include Friedel-Crafts-type C-H silylation, transfer hydrosilylation, and kinetic resolution of alcohols by enantioselective silylation.
联系人:02T4组 呼延成
联系电话:84771230
