Issue 39, 2023

Selective copper-catalysed atom transfer radical addition (ATRA) in water under environmentally benign conditions

Abstract

Simple and green conditions for copper-catalysed ATRA reactions in water have been developed. Firstly, [Cu(ADPA)(H2O)(ClO4)2] (1b, ADPA = 9-[(2,2′-dipicolylamino)methyl]anthracene) was demonstrated to be capable of selectively catalysing the ATRA of CCl4 to styrene using L-ascorbic acid (AsH2) as a reducing agent in organic solvent mixtures under ambient atmosphere. Mechanistic investigation suggested that our ATRA reaction proceeded via a single-electron transfer (SET) mechanism through an inner-sphere complex, which is consistent with the widely accepted mechanism for copper-catalysed ATRA. To perform the reaction in water as a sole solvent, a biocompatible surfactant (2 wt% Tween 20 or Tween 80) was added to improve solubility and increase the local concentration of organic reagents and the copper catalyst. Without the need for a complicated oxygen-free set-up, the ATRA reaction catalysed by this simple aqueous-dispersed system can be performed at a mild temperature (60 °C) and a relatively short reaction time (6 h) using 1 mol% of the catalyst. Furthermore, this facile protocol is also applicable for other alkene substrates demonstrated in this work, resulting in satisfactory to excellent substrate conversion and product yields.

Graphical abstract: Selective copper-catalysed atom transfer radical addition (ATRA) in water under environmentally benign conditions

Supplementary files

Article information

Article type
Paper
Submitted
30 Jun 2023
Accepted
10 Sep 2023
First published
28 Sep 2023

Dalton Trans., 2023,52, 14235-14241

Selective copper-catalysed atom transfer radical addition (ATRA) in water under environmentally benign conditions

N. Phiromphu, M. Juthathan, P. Suktanarak, M. Sukwattanasinitt, T. Tuntulani and P. Leeladee, Dalton Trans., 2023, 52, 14235 DOI: 10.1039/D3DT02044D

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