CHAPTER 12. Transition Metal Catalysis in Micellar Media: Much More Than a Simple Green Chemistry Promise

A. Scarso, G. Strukul
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引用次数: 4

Abstract

Over the past few years, micellar catalysis with transition metal complexes has become a major tool in the hands of synthetic organic chemists and an important ‘green’ technology as it allows the use of water as the reaction medium. The range of reactions in which micellar media can be successfully used is already very wide. The use of micelles can improve the yield, selectivity at all levels (chemo-, regio-, enantio-), reaction conditions, product separation, and catalyst recycling. The surfactant choice is a key issue that, for specific cases, can be optimized with especially designed surfactants and metallo-surfactants. Practical examples provide some metrics demonstrating that micellar catalysis can indeed reduce the E-factor and, in the industrial practice, also improve yields, decrease energy consumption, shorten cycle times, and ultimately production costs. In short, catalysis in micellar media is much ahead of a mere green chemistry promise and can already be considered a profitable industrial opportunity.
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第十二章。胶束介质中的过渡金属催化:不仅仅是一个简单的绿色化学承诺
在过去的几年里,过渡金属配合物的胶束催化已经成为合成有机化学家手中的主要工具和重要的“绿色”技术,因为它允许使用水作为反应介质。胶束介质可以成功应用的反应范围已经非常广泛。胶束的使用可以提高收率、各层次(化学、区域、对映体)的选择性、反应条件、产物分离和催化剂回收。表面活性剂的选择是一个关键问题,在特定情况下,可以使用特别设计的表面活性剂和金属表面活性剂进行优化。实际例子提供了一些指标,证明胶束催化确实可以降低e因子,并且在工业实践中还可以提高产量,降低能耗,缩短周期时间,最终降低生产成本。简而言之,胶束介质中的催化作用远远领先于单纯的绿色化学承诺,并且已经可以被认为是一个有利可图的工业机会。
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