Recent Advances on Design and Synthesis of Chiral Imidazolium Ionic Liquids and their Applications in Green Asymmetric Synthesis

A. Saha, Soumen Payra, Subhash Banerjee
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Abstract

Over the past decade, catalysis by ionic liquids (ILs) has experienced a tremendous growth in the context of “Green Chemistry”, and there are numerous examples of a variety of catalytic reactions that have been successfully carried out in such neoteric media.The great enthusiasm for catalysis in ILs is not only driven by the curiosity of chemists, but also due to the growing awareness of developing greener reactions or process media in catalytic science and greener catalytic technologies due their advantages of unique physical and chemical properties as compared to traditional volatile organic solvents.Recently, development of chiral ionic liquids and their applications in asymmetric synthesis have attracted much attention as these reactions have widespread applications in the synthesis of chiral drugs and pharmaceutical industries. Asymmetric induction is mainly achieved by the use of chiral substrates or reagents, chiral catalysts or enzymes. Owing to the vast number of structurally different room temperature ILS that have been synthesized, this review focuses on imidazolium ionic liquids that possess chirality either in the imidazolium moiety or in the anion moiety. The aim of this review is to highlight the recent breakthrough of Chiral ILs in chirality transfer or chiral recognition when used as solvent or co-solvent: the case of task specific ionic liquids is beyond the scope of this review. In the first part, the synthesis of of CILs has been presented and the second part of the review has been devoted on the applications of such CILs in green asymmetric synthesis as well as various pharmaceutical industries.
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手性咪唑类离子液体的设计、合成及其在绿色不对称合成中的应用
在过去的十年中,离子液体(ILs)的催化作用在 œGreen化学领域取得了巨大的发展,并且有许多在这种近代介质中成功进行的各种催化反应的例子。人们对化学催化的极大热情不仅来自于化学家的好奇心,也来自于越来越多的人意识到在催化科学和绿色催化技术中开发更绿色的反应或工艺介质,因为它们与传统的挥发性有机溶剂相比具有独特的物理和化学性质。近年来,手性离子液体的发展及其在不对称合成中的应用受到了广泛的关注,因为这些反应在手性药物的合成和制药工业中有着广泛的应用。不对称诱导主要通过使用手性底物或试剂、手性催化剂或酶来实现。由于目前已经合成了大量结构各异的室温离子液体,本文主要综述了咪唑类或阴离子类具有手性的离子液体。本文综述了手性离子液体作为溶剂或助溶剂在手性转移或手性识别方面的最新进展,但对特定任务离子液体的研究不在本文的讨论范围内。第一部分介绍了CILs的合成方法,第二部分综述了CILs在绿色不对称合成和各种制药工业中的应用。
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