Title:Knoevenagel Condensation Reactions of Cyano Malononitrile-Derivatives Under Microwave Radiation
Volume: 22
Issue: 6
Author(s): Lucas Lima Zanin, David Esteban Quintero Jimenez, Luis Pina Fonseca*Andre Luiz Meleiro Porto*
Affiliation:
- Bioengineering Department, Instituto Superior Tecnico, University of Lisbon, Institute for Bioengineering and Biosciences, Av. Rovisco Pais, 1049-001 Lisbon,Portugal
- Laboratorio de Quimica Organica e Biocatalise, Instituto de Quimica de Sao Carlos, Universidade de Sao Paulo, Av. Joao Dagnone, 1100, Ed. Quimica Ambiental, Santa Angelina, 13563-120, Sao Carlos, SP,Brazil
Keywords:
Carbon-carbon bond, aldol reaction, compounds biologically active, green chemistry, knoevenagel condensation, cyano
malononitrile-derivatives.
Abstract: Knoevenagel condensation was discovered in the 20th century, and since then it
has been present in a wide range of reactions in organic chemistry due to its potential for
forming carbon-carbon bonds. This reaction is usually carried out between aldehydes or
ketones and active methylene compounds in the presence of Lewis acids or basic catalysts.
The great advantage of this reaction is that can be carried out in mild conditions,
with easy handling and using solvents with low toxicity.
In the last 15 years, this type of organic synthesis has been used for the formation of α,β-
unsaturated carbonyl compounds according to the principles of Green Chemistry. The use
of microwave radiation to perform Knoevenagel condensation reactions is today a reality
due to their ability to reduce the reaction time from hours to minutes, absence of unwanted
products and free-solvent reactions.
In this article we will review and discuss a collection of these reactions under microwave radiation dividing it
into two strands. The first presents the condensation of Knoevenagel between malononitrile and aldehydes and
the second one, addresses the alternatives to use malononitrile-derivatives such as cyanoacetamides and cyanoacetates.
The Knoevenagel adducts formed from aldehydes present excellent results in terms of reaction
yield (above 90 %) in short reaction times (<10 min).
The authors left their contributions in order to corroborate with this complete analysis on the new trends of this
subject with great potential on Green Chemistry.