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Magnetic Nanoparticles Functionalized with Copper Hydroxyproline Complexes as an Efficient, Recoverable, and Recyclable Nanocatalyst: Synthesis and Its Catalytic Application in a Tandem Knoevenagel–Michael Cyclocondensation Reaction

Fatemeh Kalantari, Ali Ramazani, Mohammad Reza Poor Heravi, Hamideh Aghahosseini, Katarzyna Ślepokura

2021Inorganic Chemistry45 citationsDOI

Abstract

A novel catalyst has been afforded by attaching of a Cu(proline)2 complex to magnetic nanoparticles through cheap, simple, and readily available chemicals. This catalyst was characterized by Fourier transform infrared, energy-dispersive X-ray, X-ray diffraction, vibrating-sample magnetometry, transmission electron microscopy, scanning electron microscopy, and inductively coupled plasma analyses. The catalytic activity of the Fe3O4@NH2@TCT@HProCu nanocatalyst was investigated in a green and effective synthesis of pyran derivatives in high yields by applying three-component reactions of malononitrile, dimedone, and aldehydes in ethanol. Conversion was high under optimal conditions. The obtained nanocatalyst could be easily separated from the mixture of the reaction and was recyclable nine times via a simple magnet without considerable reduction of its catalytic efficiency. Operational simplicity, high product yields, environmental friendliness, ecofriendliness, economical processing, and easy workup are the features of this methodology.

Topics & Concepts

ChemistryMalononitrileDimedoneCatalysisKnoevenagel condensationMichael reactionNanoparticlePyranMagnetic nanoparticlesGreen chemistryInductively coupled plasmaFourier transform infrared spectroscopyNuclear chemistryOrganic chemistryChemical engineeringReaction mechanismQuantum mechanicsEngineeringPhysicsPlasmaMulticomponent Synthesis of HeterocyclesSynthesis and biological activitySynthesis of Organic Compounds
Magnetic Nanoparticles Functionalized with Copper Hydroxyproline Complexes as an Efficient, Recoverable, and Recyclable Nanocatalyst: Synthesis and Its Catalytic Application in a Tandem Knoevenagel–Michael Cyclocondensation Reaction | Litcius