Mechanistic considerations and characterization of ammonia-based catalytic active intermediates of the green Knoevenagel reaction of various benzaldehydes

Jack van Schijndel; Dennis Molendijk; Harmen Spakman; Edward Knaven; Luiz Alberto Canalle; Jan Meuldijk

doi:10.1080/17518253.2019.1643931

Green Chemistry Letters and Reviews (Jul 2019)

Mechanistic considerations and characterization of ammonia-based catalytic active intermediates of the green Knoevenagel reaction of various benzaldehydes

Jack van Schijndel,
Dennis Molendijk,
Harmen Spakman,
Edward Knaven,
Luiz Alberto Canalle,
Jan Meuldijk

Affiliations

Jack van Schijndel: Avans University of Applied Science
Dennis Molendijk: Avans University of Applied Science
Harmen Spakman: Avans University of Applied Science
Edward Knaven: Avans University of Applied Science
Luiz Alberto Canalle: Avans University of Applied Science
Jan Meuldijk: Eindhoven University of Technology

DOI: https://doi.org/10.1080/17518253.2019.1643931
Journal volume & issue: Vol. 12, no. 3
pp. 323 – 331

Abstract

Read online

In the green Knoevenagel reaction of benzaldehyde and malonic acid, the carbon–carbon formation reaction is catalyzed by a double Schiff base formed by benzaldehyde and ammonia. A mechanism for this green Knoevenagel has been proposed. A closed catalytic cycle explains why various ammonium salts, including ammonium bicarbonate, have been correctly reported as catalysts in Knoevenagel-like reactions. Various catalytically active intermediates from derivatives of benzaldehyde were isolated and characterized. Furthermore, these in situ formed double Schiff bases play another catalytic role in the consecutive decarboxylation reaction to various cinnamic acids.

Published in Green Chemistry Letters and Reviews

ISSN: 1751-8253 (Print); 1751-7192 (Online)
Publisher: Taylor & Francis Group
Country of publisher: United Kingdom
LCC subjects: Science: Chemistry
Website: https://www.tandfonline.com/journals/tgcl

About the journal

Abstract

Keywords