Pechmann Condensation over Copper-Mesoporous Molecular Sieves Materials

The Pechmann reaction over a series of copper-containing mesoporous silicas with different Cu contents has been investigated. These materials (Cu-HMS- n , where n is the Si/Cu ratio in the precursor gel, n = 15, 25, and 50) have been prepared at room temperature using a route based on hydrogen bondi...

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Bibliographic Details
Published in:Russian Journal of Physical Chemistry A 2024-07, Vol.98 (7), p.1488-1494
Main Authors: Aoudjit, L., Zioui, D., Halliche, D., Bachari, K., Saadi, A., Cherifi, O.
Format: Article
Language:English
Subjects:
Catalysts
Catalytic converters
Chemical analysis
Chemical Kinetics and Catalysis
Chemistry
Chemistry and Materials Science
Condensates
Copper
Copper converters
Fourier transforms
Hydrogen bonding
Infrared analysis
Liquid phases
Manganese
Micelles
Molecular sieves
Physical Chemistry
Precursors
Room temperature
Self-assembly
Silicon
Surface area
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Summary:The Pechmann reaction over a series of copper-containing mesoporous silicas with different Cu contents has been investigated. These materials (Cu-HMS- n , where n is the Si/Cu ratio in the precursor gel, n = 15, 25, and 50) have been prepared at room temperature using a route based on hydrogen bonding and self-assembly between neutral primary amine micelles (S°) and neutral inorganic precursors (I°). The obtained materials were analyzed by Chemical analysis, X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR) and nitrogen adsorption to determine the structural order and textural properties. The results show that the copper-containing HMS catalysts exhibit superior catalytic performance in the pechmann condensation reaction (liquid phase condensation of resorcinol and ethyl acetoacetate), the 7-hydroxy-4-methylcoumarin was the only product observed in this reaction. The reaction parameters were optimized to obtain high selectivity of the desired product at maximum resorcinol conversion at a temperature of 150°C. The enhanced catalytic performance of copper-HMS catalysts may be attributed to the homogeneous dispersion and uniformity of the active copper species and to the larger manganese surface areas attained on the HMS support with large pore diameters and surface areas.
ISSN:0036-0244
1531-863X
DOI:10.1134/S0036024424700481