Baeyer-Villiger Oxidation
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R2CO + RCO3H → R2CO2 (ester or lactone)
Visão geral
A peracid oxidizes a ketone by inserting an oxygen atom between the carbonyl carbon and an adjacent carbon, converting the ketone to an ester or lactone. The more substituted group migrates preferentially (migratory aptitude). This reaction is named after Adolf von Baeyer and Victor Villiger who discovered it in 1899.
Exemplo do cotidiano
The Baeyer-Villiger oxidation is used in the synthesis of caprolactone, the monomer for biodegradable polycaprolactone used in medical sutures.
Importância industrial
A produção de caprolactona por oxidação de Baeyer-Villiger da ciclohexanona suporta as indústrias de plásticos biodegradáveis e de dispositivos médicos.
Propriedades
- Tipo
- Organic
- Reversível
- Não
- Energia
- Exotérmico
- ΔH
- -180,0 kJ/mol