While exploring the ring cleavage of cyclic ketones in 1899, A. Baeyer and V. Villiger discovered that ketones could be transformed into esters, and cyclic ketones into lactones or hydroxy acids, by using peroxyacids. This reaction became known as the Baeyer-Villiger oxidation. The oxidation of ketones by this method has several benefits:
It tolerates the presence of many other functional groups
The rearrangement steps retain the existing stereochemistry at the migrating center
A wide variety of different peroxyacids can be used as oxidants
The oxidation can be performed asymmetrically on racemic or prochiral ketones using enzymes or chiral transition metal catalysts
A wide range of oxidizing agents can be used
The activity of suitable oxidizing agents can be ranked in the following order: Trifluoroperoxyacetic acid > monopermaleic acid > monoperphthalic acid > 3,5-dinitroperbenzoic acid > p-nitroperbenzoic acid > meta chloroperoxybenzoic acid (mCPBA) > performic acid > perbenzoic acid > peracetic acid > hydrogen peroxide > tert-butyl hydroperoxide (tBuOOH)
Only a few methods are known for the synthesis of cage-annulated ethers. A.P Marchand and colleagues used the Baeyer-Villiger oxidation for the preparation of novel cage heterocyclic systems, and developed a general process to make cage ethers from cage ketones.
Mechanism of the Baeyer-Villiger oxidation
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Review available Thermo Scientific products for the Baeyer-Villiger oxidation reaction: