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Overview
The Beckmann rearrangement involves the conversion of aldoximes and ketoximes to their corresponding amides under acidic conditions
Beckmann Rearrangement Mechanism
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History of the Beckmann Rearrangement
Named after the German chemist Ernst Otto Beckmann, the Beckmann rearrangement involves the conversion of aldoximes and ketoximes to their corresponding amides under acidic conditions. The reaction is usually carried out under under termperatures greater than 130°C, and in the presence of a large excess of strong Brønsted acids such as sulfuric acid or acetic acid. These conditions suggest that sensitive substrates are not suitable for this process.
To date, the Beckmann rearrangement is important in industry as a key step in the manufacture of caprolactam, a precursor to the synthesis of filaments and fibers such as nylon. The synthesis involves converting cyclohexanone to its oxime, and subsequently treating this with acid to generate caprolactam via a Beckmann rearrangement.
The total synthesis of the non-natural (+)-codeine utilized the Beckmann rearrangement to install a six-membered piperidine ring in the molecule.
Other Rearrangement Reactions
Other Rearrangements Reactions include:
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Claisen Rearrangement -
Curtius Rearrangement -
Ferrier Reaction -
Hofmann Rearrangement
For other types of reactions, visit our Named Reactions page.
Acroseal Packaging
Chemical reactions often involve the use of air- and moisture-sensitive solvents, and pyrophoric or hazardous reagents. Our AcroSeal packaging is a packaging solution designed to enable safe handling of these types of materials which are used in a variety of research and development applications, including NMR analysis and studies in drug discovery, agrochemicals, flavors and fragrances, and more.
Watch our video for more information.