Formation and Reactivity of Enolates

SYNTHESIS OF KETONES VIA a-ALKYLATION Formation and Reactivity of Enolates 

Aldehydes and ketones are acidic at the alpha (a) position because deprotonation results in a resonance-stabilized conjugate base (called an enolate). 

The enolate ion is nucleophilic at the alpha carbon. Enolates prepared from aldehydes are difficult to control, since aldehydes are also very good electrophiles and a dimerization reaction often occurs (self-aldol condensation). However, the enolate of a ketone is a versatile synthetic tool since it can react with a wide variety of electrophiles. For example, when treated with an unhindered alkyl halide (RX), an enolate will act as a nucleophile in an Sn2 mechanism that adds an alkyl group to the alpha carbon. This two-step a-alkylation process begins by deprotonation of a ketone with a strong base, such as lithium diisopropylamide (LDA) at -78°C, followed by the addition of an alkyl halide. Since the enolate nucleophile is also strongly basic, the alkyl halide must be unhindered to avoid the competing E2 elimination (ideal RX for Sn2 = 1°, ally lie, benzylic). 

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