What is keto-enol tautomerism?

1 Answer

H3CC(=O)CH3H2C=C(OH)CH3

Explanation:

The equation above describes keto-enol tautomerism for acetone. As written, the equilibrium lies strongly to the left. It's worth mentioning that this is NOT resonance.

This tautomerism offers a potential for CC bond formation, especially for 1,3-dicarbonyl species, where the equilibrium may lay towards the enol side.

The alcoholic (i.e. enolic) hydrogen is potentially acidic, and may be removed by a strong base, to give the enolate, which itself may give equilibrium quantities of its tautomer, the carbanion, as shown:

H2C=C(O_)CH3H2CC(=O)CH3

For 1,3dicarbonyls such as acetylacetone, the enolic form is strongly favoured in that it forms a 6-membered ring stabilized by hydrogen bonding, H3CC(=O)CH=C(OH)CH3.