Schematic of the Knoevenagel condensation. Reagents: aldehyde, ketone, activated methylene (malonic esters), amine base catalyst (piperidine). Product: substituted olefin.

The Knoevenagel condensation is an organic reaction used to convert an aldehyde or ketone and an activated methylene to a substituted olefin using an amine base as a catalyst. The reaction begins by deprotonation of the activated methylene by the base to give a resonance stabilized enolate. 1240584-34-2 In stock 77545-45-0 site The amine catalyst also reacts with the aldehyde or ketone to form an iminium ion intermediate, which then gets attacked by the enolate. The intermediate compound formed gets deprotonated by the base to give another enolate while the amine of the intermediate gets protonated. A rearrangement then ensues which releases the amine base, regenerates the catalyst, and yields the final olefin product. [1]

Mechanism

Mechanism of the Knoevenagel condensation. This enolate will then react with the iminium ion formed below.

References:

1.
Knoevenagel, E. Ber. Dtsch. Chem. Ges. 1898, 31, 2596–2619.