配体控制的区域或立体发散过渡金属催化 C-C 不饱和体系氢元素化 (H[E]) (E = H、B、Si、Ge)的最新进展

Synthesis Pub Date : 2024-07-01 DOI:10.1055/a-2335-8516
Sehoon Park
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引用次数: 0

摘要

用一系列氢元素(H[E])对包括烯和炔在内的 C-C 不饱和体系进行还原官能化,是合成官能化碳氢化合物的最基本、最实用的方法之一。由于生成的烃类产品具有很强的合成中间体应用性,迄今为止,许多均相有机(金属)催化剂已被广泛用于还原官能化反应。其中,能够利用 H[E](E = H、B、Si、Ge)加成 Cα-Cβ 不饱和键来控制产物的区域或立体选择性的定义明确的过渡金属催化剂尤其受到关注。在这篇综述中,我们介绍了过渡金属催化体系(M = Fe、Co、Rh、Pd、Ni)在(共轭)烯烃、炔烃和烯烃的区域或立体异构氢元素化反应中的最新实例,只需改变配体,就能从相同的起始化合物中以高选择性得到一对异构产物。本文将根据实验观察结果和/或计算结果详细讨论配体控制选择性差异的机理。1 引言 2 烯和炔的氢元素化 3 共轭二烯和二炔的氢元素化 4 烯的氢元素化 5 总结与展望
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Recent Advances in Ligand-Controlled Regio- or Stereodivergent Transition-Metal-Catalyzed Hydroelementation (H[E]) (E = H, B, Si, Ge) of C–C Unsaturated Systems

Recent Advances in Ligand-Controlled Regio- or Stereodivergent Transition-Metal-Catalyzed Hydroelementation (H[E]) (E = H, B, Si, Ge) of C–C Unsaturated Systems

Reductive functionalization of C–C unsaturated systems, including alkenes and alkynes, with a range of hydroelements (H[E]) is one of the most fundamental and highly practical methods for the synthesis of functionalized hydrocarbons. Since the resultant hydrocarbon products have strong applicability as synthetic intermediates, numerous homogeneous organo(metallic) catalysts have been intensively utilized to date for reductive functionalization reactions. In particular, well-defined transition-metal-based catalysts capable of controlling the regio- or stereoselectivity of a product by harnessing the addition of H[E] (E = H, B, Si, Ge) into Cα–Cβ unsaturated bonds have drawn special attention. In this review, we describe recent examples of transition-metal catalytic systems (M = Fe, Co, Rh, Pd, Ni) for regio- or stereodivergent hydroelementation reactions of (conjugated) alkenes, alkynes, and allenes to give a pair of isomeric products in high selectivities from the same starting compounds simply by variation of the ligand. Mechanistic aspects of the ligand-controlled selectivity divergence are discussed in detail on the basis of experimental observations and/or computational insights.

1 Introduction

2 Hydroelementation of Alkenes and Alkynes

3 Hydroelementation of Conjugated Dienes and Diynes

4 Hydroelementation of Allenes

5 Summary and Outlook

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