New advances in catalytic performance of erbium‐folic acid‐coated CoFe2O4 complexes for green one‐pot three‐component synthesis of pyranopyrimidinone and dihydropyranochromenes compounds in water

In the current research, much attention is paid to heterogenized nanostructure. Herein, we report the green synthesis magnetic nanoparticles (MNPs) of cobalt ferrite by the immobilization of erbium (Er) coated with folic acid (FA) which show effective catalytic properties and recyclability. Full cha...

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Veröffentlicht in:	Applied organometallic chemistry 2021-07, Vol.35 (7)
Hauptverfasser:	Serve Sorkhabi, Mozafari, Roya, Ghadermazi, Mohammad
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Sprache:	eng
Schlagworte:	Aldehydes Catalysts Chemistry Cobalt ferrites Electron microscopy Erbium Field emission microscopy Folic acid Gravimetric analysis Inductively coupled plasma Industrial applications Infrared spectroscopy Magnetic properties Magnetometers Malononitrile Microscopy Nanoparticles Optical emission spectroscopy Reaction time Recyclability Synthesis Thermal analysis
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creator	Serve Sorkhabi Mozafari, Roya Ghadermazi, Mohammad
description	In the current research, much attention is paid to heterogenized nanostructure. Herein, we report the green synthesis magnetic nanoparticles (MNPs) of cobalt ferrite by the immobilization of erbium (Er) coated with folic acid (FA) which show effective catalytic properties and recyclability. Full characterizations with field emission scanning electron microscopy (FE‐SEM), transmission electron microscopy (TEM), energy‐dispersive X‐ray spectroscopy (EDX), X‐ray atomic mapping, thermal gravimetric analysis (TGA), X‐ray diffraction (XRD), vibrating sample magnetometer (VSM), inductively coupled plasma‐optical emission spectrometry (ICP‐OES), and Fourier‐transform infrared (FT‐IR) spectroscopy techniques were undertaken to uncover structural properties of the prepared magnetic catalyst. The obtained nanohybrid complexes as efficient, recyclable, and green heterogeneous systems pave the way for producing pyrano[2,3‐d]pyrimidinone and dihydropyrano[3,2‐c]chromenes derivatives by the one‐pot three‐component condensation reaction of various aldehydes, malononitrile, and hydroxycoumarin or barbituric acid in green condition. This easily prepared organometalic catalyst presents many superiorities such as operational simplicity, high yield, short reaction time, utilization of commercially available or easily accessible starting materials, eco‐friendly properties, and excellent purity. Most importantly, erbium‐FA‐coated CoFe2O4 can be easily separated and recycled from the reaction system using an external magnetic field. The magnetically recoverable biocatalyst can be recycled and reused six times while maintaining high activities. The activity of the magnetic catalyst can be maintained at more than 80% of that of the previous cycle. This research solves the recovery problem encountered in industrial applications of biocatalysts and presents a clean and green method for preparing pyrimidinones and chromenes.
doi_str_mv	10.1002/aoc.6225
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Herein, we report the green synthesis magnetic nanoparticles (MNPs) of cobalt ferrite by the immobilization of erbium (Er) coated with folic acid (FA) which show effective catalytic properties and recyclability. Full characterizations with field emission scanning electron microscopy (FE‐SEM), transmission electron microscopy (TEM), energy‐dispersive X‐ray spectroscopy (EDX), X‐ray atomic mapping, thermal gravimetric analysis (TGA), X‐ray diffraction (XRD), vibrating sample magnetometer (VSM), inductively coupled plasma‐optical emission spectrometry (ICP‐OES), and Fourier‐transform infrared (FT‐IR) spectroscopy techniques were undertaken to uncover structural properties of the prepared magnetic catalyst. The obtained nanohybrid complexes as efficient, recyclable, and green heterogeneous systems pave the way for producing pyrano[2,3‐d]pyrimidinone and dihydropyrano[3,2‐c]chromenes derivatives by the one‐pot three‐component condensation reaction of various aldehydes, malononitrile, and hydroxycoumarin or barbituric acid in green condition. This easily prepared organometalic catalyst presents many superiorities such as operational simplicity, high yield, short reaction time, utilization of commercially available or easily accessible starting materials, eco‐friendly properties, and excellent purity. Most importantly, erbium‐FA‐coated CoFe2O4 can be easily separated and recycled from the reaction system using an external magnetic field. The magnetically recoverable biocatalyst can be recycled and reused six times while maintaining high activities. The activity of the magnetic catalyst can be maintained at more than 80% of that of the previous cycle. 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Herein, we report the green synthesis magnetic nanoparticles (MNPs) of cobalt ferrite by the immobilization of erbium (Er) coated with folic acid (FA) which show effective catalytic properties and recyclability. Full characterizations with field emission scanning electron microscopy (FE‐SEM), transmission electron microscopy (TEM), energy‐dispersive X‐ray spectroscopy (EDX), X‐ray atomic mapping, thermal gravimetric analysis (TGA), X‐ray diffraction (XRD), vibrating sample magnetometer (VSM), inductively coupled plasma‐optical emission spectrometry (ICP‐OES), and Fourier‐transform infrared (FT‐IR) spectroscopy techniques were undertaken to uncover structural properties of the prepared magnetic catalyst. The obtained nanohybrid complexes as efficient, recyclable, and green heterogeneous systems pave the way for producing pyrano[2,3‐d]pyrimidinone and dihydropyrano[3,2‐c]chromenes derivatives by the one‐pot three‐component condensation reaction of various aldehydes, malononitrile, and hydroxycoumarin or barbituric acid in green condition. This easily prepared organometalic catalyst presents many superiorities such as operational simplicity, high yield, short reaction time, utilization of commercially available or easily accessible starting materials, eco‐friendly properties, and excellent purity. Most importantly, erbium‐FA‐coated CoFe2O4 can be easily separated and recycled from the reaction system using an external magnetic field. The magnetically recoverable biocatalyst can be recycled and reused six times while maintaining high activities. The activity of the magnetic catalyst can be maintained at more than 80% of that of the previous cycle. 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The obtained nanohybrid complexes as efficient, recyclable, and green heterogeneous systems pave the way for producing pyrano[2,3‐d]pyrimidinone and dihydropyrano[3,2‐c]chromenes derivatives by the one‐pot three‐component condensation reaction of various aldehydes, malononitrile, and hydroxycoumarin or barbituric acid in green condition. This easily prepared organometalic catalyst presents many superiorities such as operational simplicity, high yield, short reaction time, utilization of commercially available or easily accessible starting materials, eco‐friendly properties, and excellent purity. Most importantly, erbium‐FA‐coated CoFe2O4 can be easily separated and recycled from the reaction system using an external magnetic field. The magnetically recoverable biocatalyst can be recycled and reused six times while maintaining high activities. The activity of the magnetic catalyst can be maintained at more than 80% of that of the previous cycle. 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subjects	Aldehydes Catalysts Chemistry Cobalt ferrites Electron microscopy Erbium Field emission microscopy Folic acid Gravimetric analysis Inductively coupled plasma Industrial applications Infrared spectroscopy Magnetic properties Magnetometers Malononitrile Microscopy Nanoparticles Optical emission spectroscopy Reaction time Recyclability Synthesis Thermal analysis
title	New advances in catalytic performance of erbium‐folic acid‐coated CoFe2O4 complexes for green one‐pot three‐component synthesis of pyranopyrimidinone and dihydropyranochromenes compounds in water
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