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第15讲-烯烃氧化、氢化、复分解和聚合中的金属和催化

Lecture 15 - Metals and Catalysis in Alkene Oxidation, Hydrogenation, Metathesis, and Polymerization
课程网址: http://videolectures.net/yalespan125bs2011_mcbride_lec15/  
主讲教师: J. Michael McBride
开课单位: 耶鲁大学
开课时间: 2014-08-19
课程语种: 英语
中文简介:
烯烃可通过高锰酸盐或OsO4催化氧化成二醇。金属催化剂提供轨道,允许金属与烯烃或H2同时形成两个键。将这种氧化加成与还原消除偶联,为向烯烃加氢提供低能催化路径。这种催化氢化通常被认为涉及合成立体化学,但原始文献表明,当催化剂上发生烯丙基重排时,加成反应可能是反式的。类似的氧化/还原循环在烯烃复分解和金属催化聚合中进行。仔细的催化剂设计允许控制聚合物立体化学(触觉)。由自由基或酸催化的聚合通常缺乏立体化学控制,但有控制区域化学和链长的方法。乳胶是一种天然聚合物,凝结形成一个橡胶球。
课程简介: Alkenes may be oxidized to diols by permanganate or by OsO4 catalysis. Metal catalysts provide orbitals that allow simultaneous formation of two bonds from metal to alkene or H2. Coupling such oxidative additions to reductive eliminations, provides a low-energy catalytic path for addition of H2 to an alkene. Such catalytic hydrogenation is often said to involve syn stereochemistry, but the primary literature shows that addition can be anti when allylic rearrangement occurs on the catalyst. Similar oxidative/reductive cycles operate in olefin metathesis and metal-catalyzed polymerization. Careful catalyst design allows control over polymer stereochemistry (tacticity). Polymerizations catalyzed by free-radicals or acids typically lack stereochemical control, but there are ways to control regiochemistry and chain length. Latex, a natural polymer, coagulates to form a rubber ball.
关 键 词: 烯烃; 金属催化剂; 催化氧化
课程来源: 视频讲座网
数据采集: 2021-11-12:zkj
最后编审: 2021-11-12:zkj
阅读次数: 78