Preparation of Aldehydes and ketones
Functional group transformations
Functional group transformations allow the conversion of a functional group to an aldehyde or a ketone without affecting the carbon skeleton of the molecule. Aldehydes can be synthesized by the oxidation of primary alcohols, or by the reduction of esters, acid chlorides, or nitriles. Ketones can be synthesized by the oxidation of secondary alcohols. Methyl ketones can be synthesized from terminal alkynes.
C–C Bond formation
Reactions which result in the formation of aldehydes and ketones by carbon–carbon bond formation are useful in the construction of more complex carbon skeletons from simple starting materials. Ketones can be synthesized from the reaction of acid chlorides with organocuprate reagents, or from the reaction of nitriles with a Grignard or organolithium reagent. Aromatic ketones can be synthesized by the Friedel–Crafts acylation of an aromatic ring.
C–C Bond cleavage
Aldehydes and ketones can be obtained from the ozonolysis of suitably substituted alkenes.
Functional group transformations
Functional group transformations allow the conversion of a functional group to an aldehyde or a ketone without affecting the carbon skeleton of the molecule.
Aldehydes can be synthesized by the oxidation of primary alcohols, or by the reduction of esters, acid chlorides, or nitriles. Since nitriles can be obtained from alkyl halides, this is a way of adding an aldehyde unit (CHO) to an alkyl halide (Fig. 1).
Ketones can be synthesized by the oxidation of secondary alcohols.
Methyl ketones can be synthesized from terminal alkynes.
C–C Bond formation
Reactions which result in the formation of ketones by carbon–carbon bond formation are extremely important because they can be used to construct complex carbon skeletons from simple starting materials. Ketones can be synthesized from the reaction of acid chlorides with organocuprate reagents, or from the reaction of nitriles with a Grignard or organolithium reagent. Aromatic ketones can be synthesized by the Friedel–Crafts acylation of an aromatic ring.
C–C Bond cleavage
Aldehydes and ketones can be obtained from the ozonolysis of suitably substituted alkenes.