Zr supported on non-acidic sepiolite for the efficient one-pot transformation of furfural into γ-valerolactone

Zr supported on non-acidic sepiolite for the efficient one-pot transformation of furfural into γ-valerolactone

The growing demand of energy needs the search for alternative energy sources different to fossil fuels. The use of biomass as energy source is one of the most studied, because there are high value products that can be produced from biomass. One of these products is γ-valerolactone, that can be obtai...

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Bibliographic Details
Published in:Biomass & bioenergy Vol. 170; p. 106730
Main Authors: García, Adrián, Monti, Eleonora, Ventimiglia, Alessia, Dimitratos, Nikolaos, Miguel, Pablo J., López, María Luisa, Álvarez-Serrano, Inmaculada, García, Tomás, Pico, Maria Pilar, Dejoz, Ana M., Solsona, Benjamín
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-03-2023
Subjects:
Cheap supports
One-pot
Sepiolite
Wet impregnation
Zr dispersion
One-pot
Cheap supports
Zr dispersion
Sepiolite
Wet impregnation
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Summary:The growing demand of energy needs the search for alternative energy sources different to fossil fuels. The use of biomass as energy source is one of the most studied, because there are high value products that can be produced from biomass. One of these products is γ-valerolactone, that can be obtained from furfural, which is a biomass derived product. To transform furfural into γ-valerolactone is necessary a bifunctional catalyst and a hydrogen source. In this work, γ-valerolactone was obtained from furfural using 2-propanol as solvent and as hydrogen donor on Zr supported on sepiolite catalysts. It was demonstrated that sepiolite, which is a cheap material, can be used to develop efficient catalysts to produce high yields to γ-valerolactone from furfural in one-pot. The catalysts that presented the highest yield to γ-valerolactone were the ones with intermediate Zr-content (9–17 wt% ZrO2). The highest TOFs have been obtained by those catalysts with Zr-loading up to 9 wt% ZrO2, in which the ZrO2 nanoparticles are well dispersed on the support and no formation of large clusters of ZrO2 has been observed. Lewis and Brønsted acid sites are essential in the catalysts to produce the reactions to transform furfural into γ-valerolactone in one-pot, although in the present work, low concentration of Brønsted acid sites were observed in the catalysts. A possible positive role of basic sites to promote some intermediate steps has been also proposed. The catalytic results obtained are in the order of catalysts with Zr supported on zeolitic supports. •High yields to γ-valerolactone from furfural in one-pot using Zr on sepiolite.•Controlling the Zr amount on the support, the acid and basic sites can be optimized.•Intermediate Zr-contents (9–17 wt% ZrO2) present the optimal performance.•Lewis acid sites are essential. Bronsted acid and basic sites play a positive role.•Highly dispersed Zr species are the most efficient for γ-valerolactone formation.
ISSN:0961-9534
1873-2909
DOI:10.1016/j.biombioe.2023.106730