Photocatalytic generation of alkyl carbanions from aryl alkenes

IF 42.8 1区化学 Q1 CHEMISTRY, PHYSICAL Nature Catalysis Pub Date : 2024-10-23 DOI:10.1038/s41929-024-01237-x

Milena L. Czyz, Tyra H. Horngren, Andrew J. Kondopoulos, Liam J. Franov, José A. Forni, Le Nhan Pham, Michelle L. Coote, Anastasios Polyzos

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Abstract

Organometallic reagents are routinely used as fundamental building blocks in organic chemistry to rapidly diversify molecular fragments via carbanion intermediates. However, the catalytic generation of carbanion equivalents, particularly from sp³-hybridized alkyl scaffolds, remains an underdeveloped goal in chemical synthesis. Here we disclose an approach for the generation of alkyl carbanions via single-electron reduction of aryl alkenes, enabled by multi-photon photoredox catalysis. We demonstrate that photocatalytically induced alkyl carbanions engage in intermolecular C–C bond-forming reactions with carbonyl electrophiles. Central to this method is the controlled formation of an alkene distonic radical anion intermediate that undergoes nucleophilic addition, followed by a kinetically favoured reductive polar crossover to produce a second carbanion available for further diversification. The versatility of this protocol was illustrated by the development of four distinct intermolecular C–C bond-forming reactions with aromatic alkenes (hydroalkoxylation, hydroamidation, aminoalkylation and carboxyaminoalkylation) to generate a range of valuable and complex scaffolds.

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光催化生成芳基烯烃的烷基碳离子

有机金属试剂是有机化学中常用的基本构件，可通过碳离子中间体快速使分子片段多样化。然而，催化生成碳阴离子等价物，特别是由 sp3 杂化烷基支架生成碳阴离子等价物，仍然是化学合成中一个有待开发的目标。在此，我们揭示了一种通过多光子光氧化催化实现芳基烯的单电子还原生成烷基碳离子的方法。我们证明了光催化诱导的烷基碳离子与羰基亲电体发生分子间 C-C 键形成反应。这种方法的核心是受控地形成烯二酮自由基阴离子中间体，该中间体进行亲核加成，然后进行动力学上有利的还原性极性交叉，产生可用于进一步多样化的第二个碳阴离子。通过与芳香族烯烃发生四种不同的分子间 C-C 键形成反应（氢烷氧基化、氢酰胺化、氨基烷基化和羧基氨基烷基化），生成一系列有价值的复杂支架，说明了该方案的多功能性。

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来源期刊

Nature Catalysis Chemical Engineering-Bioengineering

CiteScore

52.10

自引率

1.10%

发文量

140

期刊介绍： Nature Catalysis serves as a platform for researchers across chemistry and related fields, focusing on homogeneous catalysis, heterogeneous catalysis, and biocatalysts, encompassing both fundamental and applied studies. With a particular emphasis on advancing sustainable industries and processes, the journal provides comprehensive coverage of catalysis research, appealing to scientists, engineers, and researchers in academia and industry. Maintaining the high standards of the Nature brand, Nature Catalysis boasts a dedicated team of professional editors, rigorous peer-review processes, and swift publication times, ensuring editorial independence and quality. The journal publishes work spanning heterogeneous catalysis, homogeneous catalysis, and biocatalysis, covering areas such as catalytic synthesis, mechanisms, characterization, computational studies, nanoparticle catalysis, electrocatalysis, photocatalysis, environmental catalysis, asymmetric catalysis, and various forms of organocatalysis.

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