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A Three-Minute Synthesis and Purification of Ibuprofen: Pushing the Limits of Continuous-Flow Processing

By Snead, David R.; Jamison, Timothy F.

Published on

Abstract

In a total residence time of three minutes, ibuprofen was assembled from its elementary building blocks with an average yield of above 90 % for each step. A scale-up of this five-stage process (3 bond-forming steps, one work-up, and one in-line liquid–liquid separation) provided ibuprofen at a rate of 8.09 g h−1 (equivalent to 70.8 kg y−1) using a system with an overall footprint of half the size of a standard laboratory fume hood. Aside from the high throughput, several other aspects of this synthesis expand the capabilities of continuous-flow processing, including a Friedel–Crafts acylation run under neat conditions and promoted by AlCl3, an exothermic in-line quench of high concentrations of precipitation-prone AlCl3, liquid–liquid separations run at or above 200 psi to provide solvent-free product, and the use of highly aggressive oxidants, such as iodine monochloride. The use of simple, inexpensive, and readily available reagents thus affords a practical synthesis of this important generic pharmaceutical.

Journal

Angewandte Chemie International Edition. Volume 54, 2014, 983-987

DOI

10.1002/anie.201409093

Type of publication

Peer-reviewed journal

Affiliations

  • Massachusetts Institute of Technology

Article Classification

Research Article

Classification Areas

  • API

Tags