Atmospheric Oxygen Facilitated Oxidative Amidation to α‑Ketoamides and Unusual One Carbon Degradative Amidation to N‑Alkyl Amides

Atmospheric Oxygen Facilitated Oxidative Amidation to α‑Ketoamides and Unusual One Carbon Degradative Amidation to N‑Alkyl Amides

A mild, transition-metal-free novel synthetic approach for the construction of CO and C–N bonds has been demonstrated. Easily accessible gem-dibromoalkenes under similar conditions form oxidative amidation product α-ketoamides and unusual degradative amidation product N-alkyl amides by simply chang...

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Veröffentlicht in:Journal of organic chemistry 2023-11, Vol.88 (22), p.15551-15561
Hauptverfasser: Jadav, Jaydeepbhai P., Vankar, Jigarkumar K., Gupta, Ankush, Gururaja, Guddeangadi N.
Format: Artikel
Sprache:eng
Schlagworte:
air
amides
carbon
organic chemistry
oxidants
oxygen
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Zusammenfassung:A mild, transition-metal-free novel synthetic approach for the construction of CO and C–N bonds has been demonstrated. Easily accessible gem-dibromoalkenes under similar conditions form oxidative amidation product α-ketoamides and unusual degradative amidation product N-alkyl amides by simply changing the amine substitute. Atmospheric air containing molecular oxygen proved to be an ideal oxidant for an amidation reaction. Under similar conditions, the electron-deficient gem-dibromoalkenes play a dual role with different formamides forming novel oxidative amidation products and by the state of art neighboring group participation of amine to unusual one-carbon degradative amidation products.
ISSN:0022-3263
1520-6904
1520-6904
DOI:10.1021/acs.joc.3c00457