利用可见光进行催化Dearomative Cycloaddition反应

IF 2.8 4区 化学 Q1 CHEMISTRY, ORGANIC Asian Journal of Organic Chemistry Pub Date : 2024-09-04 DOI:10.1002/ajoc.202400374
DEBAJYOTI SAHA
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引用次数: 0

摘要

多环化合物的合成备受重视,因为这些结构在药品和天然物质中无处不在。环化反应是化学合成中最重要的反应类别之一,因为它能够使用简单易得的起始材料一步生成多环化合物。近来,可见光介导的光催化技术已成为实现各种转化的有力工具。在过去几年中,由可见光诱导的脱芳环化反应取得了重大进展。本综述概述了可见光诱导的脱芳香环加成反应,根据底物激发方法分为:a) 能量转移(Ent)法可见光诱导的脱芳香光催化环加成反应;b) 直接激发法可见光诱导的脱芳香环加成反应;c) 可见光诱导的脱芳香自由基环化反应。
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catalytic Dearomative Cycloaddition Reactions enabled by visible light
The synthesis of polycyclic compounds is highly valued due to the ubiquitous presence of these structures in pharmaceuticals and natural substances. Cycloaddition reactions are notable as one of the most important reaction classes in chemical synthesis due to their ability to generate polycyclic compounds in a single step using straightforward and easily accessible starting materials. In recent times, visible‐light‐mediated photocatalysis has emerged as a powerful tool for enabling a wide range of transformations. Significant advancements have been achieved in dearomative cycloaddition reactions induced by visible light over the past several years. This review offers an overview of visible‐light‐induced dearomative cycloaddition reactions categorized according to the method of substrate excitation ‐ a) Visible light induced dearomative photocatalytic cycloaddition by Energy Transfer (Ent); b) Visible light induced dearomative cycloaddition by direct excitation, c) Visible light induced dearomative radical cyclization.
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来源期刊
CiteScore
4.70
自引率
3.70%
发文量
372
期刊介绍: Organic chemistry is the fundamental science that stands at the heart of chemistry, biology, and materials science. Research in these areas is vigorous and truly international, with three major regions making almost equal contributions: America, Europe and Asia. Asia now has its own top international organic chemistry journal—the Asian Journal of Organic Chemistry (AsianJOC) The AsianJOC is designed to be a top-ranked international research journal and publishes primary research as well as critical secondary information from authors across the world. The journal covers organic chemistry in its entirety. Authors and readers come from academia, the chemical industry, and government laboratories.
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