钯催化不饱和羰基化合物的 γ-C-H 芳基化反应:一种新兴的远程布赫瓦尔德-哈特维格-米乌拉芳基化反应

Synthesis Pub Date : 2024-08-27 DOI:10.1055/a-2376-3429
Dashan Li, Yan-Ping Peng, Li-Dong Shao
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引用次数: 0

摘要

作为 Buchwald-Hartwig-Miura 芳基化反应的重要补充,Pd 催化的 γ-C-H 芳基化反应(包括 γ-C(sp3)-H 和 γ-C(sp2)-H 芳基化反应)为在不饱和羰基化合物活性较低的γ位点上安装芳基提供了一条更直接的途径,近年来引起了化学界的极大兴趣。本综述总结了该方法在环状和线性不饱和羰基化合物(醛、酮、酯、酰胺和腈类)以及天然产物(NPs)、天然产物骨架和生物活性类似物的全合成中的应用。1 引言 2 环状不饱和羰基底物的γ-C-H 芳基化 2.1 外环γ-芳基化 2.1.1 不饱和酮和相应的硅基-二烯醇醚 2.1.2 不饱和内酯 2.2 内环γ-C-H 芳基化 2.2.1 不饱和酮和相应的硅基-二烯醇醚 2.2.2 不饱和内酯 2.2.1 环状不饱和羰基底物的γ-C-H 芳基化 2.2.2 环状不饱和酮和相应的硅基-二烯醇醚 2.2.3 环状不饱和羰基底物的γ-C-H 芳基化2.2 不饱和内酯 2.2.3 不饱和腈 3 线性不饱和羰基底物的 γ-C-H 芳基化 3.1 不饱和醛 3.2 不饱和酮 3.3 不饱和酰胺 3.4 不饱和腈 3.5 α,β-不饱和酯的硅基乙酮 4 结论
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Palladium-Catalyzed γ-C–H Arylation of Unsaturated Carbonyl Compounds: An Emerging Remote Buchwald–Hartwig–Miura Arylation

Palladium-Catalyzed γ-C–H Arylation of Unsaturated Carbonyl Compounds: An Emerging Remote Buchwald–Hartwig–Miura Arylation

As an important complement to the Buchwald–Hartwig–Miura arylation, Pd-catalyzed γ-C–H arylations, including γ-C(sp3)–H and γ-C(sp2)–H arylations, provide a more direct route to install an aryl group on the less reactive γ-site of unsaturated carbonyl compounds, and have attracted considerable interest from the chemistry community in recent years. This review summarizes the applications of this method with both cyclic and linear unsaturated carbonyl compounds (aldehydes, ketones, esters, amide, and nitriles), as well as in the total synthesis of natural products (NPs), natural product skeletons, and bioactive analogues.

1 Introduction

2 γ-C–H Arylation of Cyclic Unsaturated Carbonyl Substrates

2.1 Exocyclic γ-Arylation

2.1.1 Unsaturated Ketones and the Corresponding Silyl-Dienol Ethers

2.1.2 Unsaturated Lactones

2.2 Endocyclic γ-C–H Arylation

2.2.1 Unsaturated Ketones and the Corresponding Silyl-Dienol Ethers

2.2.2 Unsaturated Lactones

2.2.3 Unsaturated Nitriles

3 γ-C–H Arylation of Linear Unsaturated Carbonyl Substrates

3.1 Unsaturated Aldehydes

3.2 Unsaturated Ketones

3.3 Unsaturated Amides

3.4 Unsaturated Nitriles

3.5 Silyl Ketene Acetals of α,β-Unsaturated Esters

4 Conclusion

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