Conversion of levulinic acid over Ag substituted LaCoO3 perovskite

Seguel, J.; Leal, E.; Zarate, X.; Saavedra-Torres, M.; Schott, E.; de Leon, J. N. Diaz; Blanco, E.; Escalona, N.; Pecchi, G.; Sepulveda, C.


The present work shows the application of substituted and basic perovskites as catalysts in the levulinic acid conversion. In this context, the effect of the Ag substitution on La1-xAgxCoO3 (x = 0.00, 0.05, 0.10, 0.20) catalysts is reported. The catalysts were characterized by X-ray diffraction (XRD), specific surface area (BET), temperature programed reduction (H-2-TPR), methanol-temperature-programmed reaction (CH3OH-TPR) and X-ray photoelectron spectroscopy (XPS) and their catalytic performance was evaluated in a batch reactor at 250 degrees C and 50 bar of H-2. The highest catalytic activity was obtained for the non-substituted LaCoO3 perovskite attributed to a high amount of surface Co2+. The post-reaction XPS characterization of the La1-xAgxCoO3 (x = 0.00, 0.05, 0.10, 0.20) perovskites indicates a partially reduction during the catalysis. The silver substitution increases the perovskites stability in reducting atmosphere, being the x(Ag) = 0.05 the largest. In the levulinic acid (LA) conversion, an increase at shorter reaction times was detected in the formation of HPA as an intermediate followed by dehydration to form GVL. The further hydrogenation step produces pentanoic acid (PA). The presence of reduced surface cobalt species and basic sites in the Ag substituted perovskites promotes the conversion of levulinic acid and selectivity to higher hydrogenation compounds, indicative of that these mixed oxides can be used successfully in hydrotreatment reactions of biomass platform molecules.

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Título según WOS: Conversion of levulinic acid over Ag substituted LaCoO3 perovskite
Título de la Revista: FUEL
Volumen: 301
Fecha de publicación: 2021


Notas: ISI