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Fully automated continuous flow synthesis of 4,5-disubstituted oxazoles

By Baumann M1; Baxandale. I1; Ley S1; Smith G1; Tranmer G1

1. Innovative Technology Center, Department of Chemistry, University of Cambridge

View Link (HTM)

Category

Peer-reviewed journal

Published on CMKC

Abstract

A multipurpose mesofluidic flow reactor capable of producing gram quantities of material has been developed as an automated synthesis platform for the rapid on-demand synthesis of key building blocks and small exploratory libraries. The reactor is configured to provide the maximum flexibility for screening of reaction parameters that incorporate on-chip mixing and columns of solid supported reagents to expedite the chemical synthesis.

Journal

Organic Letters

DOI

10.1021/ol061975c

Type of publication

Peer-reviewed Journal

Affiliations

Innovative Technology Center, Department of Chemistry, University of Cambridge

Article Classification

Research Article

Classification Areas

Chemical Synthesis

Tags

  1. Automated Continous Flow
  2. Cyclization
  3. Disubstituted oxazoles
  4. Regioselective preparation
  5. Solid supported reagents