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Synthesis of Celecoxib, Mavacoxib, SC-560, Fluxapyroxad, and Bixafen Enabled by Continuous Flow Reaction Modules

By Britton, Joshua; Jamison, Timothy F.

View Resource (DOI)

Category

Peer-reviewed journal

Published on

Abstract

Multi-step continuous flow synthesis enables a parallel approach to obtain agrochemicals and pharmaceuticals containing 3-fluoroalkyl pyrazole cores. In this system, fluorinated amines are transformed into pyrazole cores through a telescoped in situ generation and consumption of diazoalkanes. Once synthesized, additional continuous flow and batch reactions add complexity to the pyrazole core via C–N arylation and methylation, TMS cleavage, and amidation. Using this modular assembly line approach, Bixafen and Fluxapyroxad were synthesized in 38 % yield over four continuous flow steps in an overall reaction time of 56 min. Finally, coupling selected continuous flow processes with an offline (batch) Ullmann coupling afforded Celecoxib, Mavacoxib, and SC-560 in 33–54 % yield over two to three steps.

Journal

European Journal of Organic Chemistry. Volume 2017, 2017, 6566-6574

DOI

10.1002/ejoc.201700992

Type of publication

Peer-reviewed journal

Affiliations

  • Massachusetts Institute of Technology

Article Classification

Research Article

Classification Areas

  • API

Tags

  1. API
  2. Bixafen
  3. Celecoxib
  4. Fluxapyroxad
  5. Mavacoxib
  6. Multi-step continuous flow synthesi
  7. Research Article
  8. SC-560