For best experience please turn on javascript and use a modern browser!
You are using a browser that is no longer supported by Microsoft. Please upgrade your browser. The site may not present itself correctly if you continue browsing.

In a paper just accepted by Angewandte Chemie, Prof. Timothy Noël and coworkers at the Flow Chemistry group of the Van 't Hoff Institute for Molecular Sciences present a photocatalytic procedure that enables the acylation/arylation of unfunctionalized alkyl derivatives. Owing to the intensified conditions of the flow chemistry set-up, they were able to reduce reaction times from 12-48 hours to only 5-15 minutes.

reaction scheme
Image: HIMS.

Due to the mild reaction conditions, the methodology shows great functional group tolerance and high regioselectivity, and can be used for the late-stage functionalization of various complex biologically relevant molecules. Kinetic studies show that the combination of a microfluidic environment and powerful light sources boosts the overall rate of the reaction without affecting the mechanism. The study was performed in cooperation with Signify (previously Philips Lighting), the world-leading company in light source development.

Abstract

Herein, we report a photocatalytic procedure that enables the acylation/arylation of unfunctionalized alkyl derivatives in flow. The method exploits the ability of the decatungstate anion to act as a hydrogen atom abstractor and produce nucleophilic carbon-centered radicals that are intercepted by a nickel catalyst to ultimately forge C(sp3)‒C(sp2) bonds. Owing to the intensified conditions in flow, the reaction time can be reduced from 12-48 hours to only 5-15 minutes. Finally, kinetic measurements highlight how the intensified conditions do not change the reaction mechanism but reliably speed up the overall process.

Paper

Daniele Mazzarella, Antonio Pulcinella, Loïc Bovy, Rémy Broersma, and Timothy Noël: Rapid and Direct Photocatalytic C(sp3)H Acylation and Arylation in Flow Angewandte Chemie, First published: 30 July 2021, DOI: 10.1002/anie.202108987

Also read

Chemische reacties in flow tot tweehonderd keer sneller (Dutch C2W chemistry news)