Camillo Morano, Alessandro Giraudo, Gabriella Roda, Edoardo Armano, Giulia Nasta, Massimiliano Sipala, Marco Pallavicini and Cristiano Bolchi
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Efficient α-selective chlorination of phenylacetic acid and its para-substituted analogues†
α-Chlorophenylacetic acids are synthons with great potential but are limited by the lack of a simple and generalizable method for their preparation from readily available precursors. Therefore, relying on the commercial availability of phenyl acetic acid and a series of para-substituted phenylacetic acids, we explored the practicability of their direct α-selective chlorination without the competing electrophilic aromatic chlorination. Indeed, treatment of these substrates with catalytic PCl3 and a slight excess of trichloroisocyanuric acid (TCCA) under solvent-free conditions rapidly provided the desired products in high yields with the only condition being that substituents that strongly activate electrophilic aromatic substitution were absent. An efficient preparative method for α-chlorinate phenylacetic acid and its analogues bearing electron-withdrawing or weakly electron-donating para-substituents, such as NO2, CN, CF3, COOMe, halogen, and alkyl, was thus developed, making these synthetic intermediates more accessible and exploitable.
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An international, peer-reviewed journal covering all of the chemical sciences, including multidisciplinary and emerging areas. RSC Advances is a gold open access journal allowing researchers free access to research articles, and offering an affordable open access publishing option for authors around the world.
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