Recent Advances in Organocatalytic Asymmetric Synthesis of Bicyclo[3.3.1]nonane Frameworks

IF 4.4 2区 化学 Q2 CHEMISTRY, APPLIED
Rong-Rong Ma, Bo-Yang Liu, Lei Yan, Jun-Bing Lin, Peng-Fei Xu
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引用次数: 0

Abstract

The bicyclo[3.3.1]nonane ring represents an attractive yet challenging synthetic targets in the field of organic synthesis, especially in a stereocontrolled fashion. Over the past two decades, organocatalysis has emerged as an enabling technology for the facile construction of enantioenriched molecules with remarkably increasing complexity and diversity, and a myriad of chiral architectures containing bicyclo[3.3.1]nonane units were elegantly assembled through organocatalytic asymmetric transformations. This review summarizes recent advancements on this topic (mainly from 2010 to 2023), emphasizing the reaction types such as desymmetrization and cascade reactions of different prochiral starting materials toward various chiral bicyclo[3.3.1]nonanes as well as their aza, oxa and thio derivatives. Meanwhile, the synthetic strategy, reaction mechanism, substrate scope and synthetic applications of these catalytic reactions are also discussed. We hope that this review will motivate further development and application of organocatalytic asymmetric synthesis of bicyclo[3.3.1]nonane frameworks.
双环[3.3.1]壬烷框架的有机催化不对称合成的最新进展
双环[3.3.1]壬烷环是有机合成领域极具吸引力但又极具挑战性的合成目标,特别是在立体可控的方式下。在过去的二十年中,有机催化技术的出现使人们能够轻松构建对映体丰富的分子,其复杂性和多样性显著增加,通过有机催化不对称转化,无数含有双环[3.3.1]壬烷单元的手性结构被优雅地组装起来。本综述总结了这一主题的最新进展(主要从 2010 年到 2023 年),强调了不同原手性起始材料向各种手性双环[3.3.1]壬烷及其氮杂、氧杂和硫杂衍生物的去对称化和级联反应等反应类型。同时,还讨论了这些催化反应的合成策略、反应机理、底物范围和合成应用。我们希望这篇综述能推动双环[3.3.1]壬烷框架有机催化不对称合成的进一步发展和应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advanced Synthesis & Catalysis
Advanced Synthesis & Catalysis 化学-应用化学
CiteScore
9.40
自引率
7.40%
发文量
447
审稿时长
1.8 months
期刊介绍: Advanced Synthesis & Catalysis (ASC) is the leading primary journal in organic, organometallic, and applied chemistry. The high impact of ASC can be attributed to the unique focus of the journal, which publishes exciting new results from academic and industrial labs on efficient, practical, and environmentally friendly organic synthesis. While homogeneous, heterogeneous, organic, and enzyme catalysis are key technologies to achieve green synthesis, significant contributions to the same goal by synthesis design, reaction techniques, flow chemistry, and continuous processing, multiphase catalysis, green solvents, catalyst immobilization, and recycling, separation science, and process development are also featured in ASC. The Aims and Scope can be found in the Notice to Authors or on the first page of the table of contents in every issue.
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