Acetylation of Eugenol over 12-Molybdophosphoric Acid Anchored in Mesoporous Silicate Support Synthesized from Flint Kaolin

Acetylation of Eugenol over 12-Molybdophosphoric Acid Anchored in Mesoporous Silicate Support Synthesized from Flint Kaolin

A new prepared catalyst, 12-molybdophosphoric acid (HPMo) anchored to the mesoporous aluminosilicate AlSiM, synthesized from Amazon kaolin, was characterized and used as a heterogeneous acid catalyst for the production of eugenyl acetate by acetylation of eugenol with acetic anhydride. The effect of...

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Bibliographic Details
Published in:Materials Vol. 12; no. 18; p. 2995
Main Authors: de Oliveira, Alex de Nazaré, Leite Lima, Erika Tallyta, de Oliveira, Deborah Terra, Angélica, Rômulo Simões, de Aguiar Andrade, Eloisa Helena, da Rocha Filho, Geraldo Narciso, Ferreira da Costa, Carlos Emmerson, Fernandes Costa, Fabiola, Luque, Rafael, Santos do Nascimento, Luís Adriano
Format: Journal Article
Language:English
Published: Basel MDPI AG 16-09-2019
MDPI
Subjects:
Acetylation
Aluminosilicates
Aluminum
Aluminum silicates
Anhydrides
Catalysis
Catalysts
Catalytic activity
Environmental impact
Insecticides
Investigations
Kaolin
Kinetics
Mosquitoes
Phosphomolybdic acid
Reaction time
Substrates
Tropical diseases
Brazil
Rio de Janeiro Brazil
Germany
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Summary:A new prepared catalyst, 12-molybdophosphoric acid (HPMo) anchored to the mesoporous aluminosilicate AlSiM, synthesized from Amazon kaolin, was characterized and used as a heterogeneous acid catalyst for the production of eugenyl acetate by acetylation of eugenol with acetic anhydride. The effect of various reaction parameters, such as catalyst concentration, eugenol/acetic anhydride molar ratio, temperature and reaction time, was studied to optimize the conditions of maximum conversion of eugenol. The kinetics studies showed that in eugenol acetylation, the substrate concentration follows a first order kinetics. The results of activation energy was 19.96 kJ mol−1 for HPMo anchored to AlSiM. The reuse of the catalyst was also studied and there was no loss of catalytic activity after four cycles of use (from 99.9% in the first cycle to 90% in the fifth cycle was confirmed), and an excellent stability of the material was observed. Based on catalytic and kinetic studies, HPMo anchored to AlSiM is considered an excellent catalyst.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma12182995