Preparation of novel mesoporous Ca/P MCM-41-based materials for mechanochemical diphenyl sulfide oxidation
H. Brasil, A.L.G.D. Carvalho, F.F. Costa, L.A.S.D. Nascimento, S. Mhadmhan, A. Pineda, R. Luque, G.P. Valença
ARTIGO
Inglês
MCM-41 molecular sieve was synthesized by liquid crystal templating and modified by incipient wetness impregnation with different Ca/P ratios. The solids were characterized by XRD, XRF, N2 physisorption and NH3/CO2-TPD. The impregnation of Ca/P considerably increased the acid and basic character of...
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MCM-41 molecular sieve was synthesized by liquid crystal templating and modified by incipient wetness impregnation with different Ca/P ratios. The solids were characterized by XRD, XRF, N2 physisorption and NH3/CO2-TPD. The impregnation of Ca/P considerably increased the acid and basic character of MCM-41 materials, which were subsequently tested as catalysts in the mechanochemical oxidation of diphenyl sulfide, showing good selectivity (ca. 62 and 76%) for the selective production of diphenyl sulfoxide
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Aberto
Preparation of novel mesoporous Ca/P MCM-41-based materials for mechanochemical diphenyl sulfide oxidation
H. Brasil, A.L.G.D. Carvalho, F.F. Costa, L.A.S.D. Nascimento, S. Mhadmhan, A. Pineda, R. Luque, G.P. Valença
Preparation of novel mesoporous Ca/P MCM-41-based materials for mechanochemical diphenyl sulfide oxidation
H. Brasil, A.L.G.D. Carvalho, F.F. Costa, L.A.S.D. Nascimento, S. Mhadmhan, A. Pineda, R. Luque, G.P. Valença
Fontes
Microporous and mesoporous materials Vol. 297 (May, 2020), n. art. 110017 |