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Investigation of the physico-chemical properties of Ni-Mg-Al-La catalysts from ultrasound-assisted synthesis

Hamed Kalawoun, Carmen Ciotonea, Maya Marinova, Cédric Gennequin, François Delattre

2024Ultrasonics Sonochemistry10 citationsDOIOpen Access PDF

Abstract

This work reports on the ultrasonic synthesis of layered double hydroxides (LDH), also known as hydrotalcite-type materials. We have studied the influence of ultrasonic irradiation parameters (power, time, temperature) on the physicochemical properties of Ni2Mg4Al1.8La0.2 hydrotalcite-type precursors and related mixed oxides (MO). The low-frequency acoustic cavitation (22 kHz) was applied during the precipitation and aging steps of co-precipitation synthesis and the results were compared to the classical preparation route. The materials were characterized by ATR-FTIR, XRD, N2 adsorption–desorption, SEM-EDX, S/TEM-HAADF, and XPS. Using the combination of acoustic cavitation-assisted precipitation and aging steps, XRD experiments show a higher purity hydrotalcite phase and a better incorporation of lanthanum ions into the LDH structure. As expected, morphological characterization shows a reduction in average crystallite size and an increase in surface area and pore volume, combined with a drastic reduction in synthesis time (45 min at room temperature versus 19 h at 60 °C in conventional synthesis). The insertion of a larger quantity of La is observed by S/TEM-EDSX mapping which also shows a better distribution of lanthanum atoms within the LDH and mixed oxide structures.

Topics & Concepts

HydrotalciteMaterials scienceCrystalliteLayered double hydroxidesLanthanumCalcinationPrecipitationX-ray photoelectron spectroscopyChemical engineeringLanthanum oxideCatalysisMixed oxideInorganic chemistryOxideChemistryMetallurgyOrganic chemistryPhysicsMeteorologyEngineeringLayered Double Hydroxides Synthesis and ApplicationsMagnesium Oxide Properties and ApplicationsInorganic Chemistry and Materials