Abstract
Heterogeneous catalysts are desired for the conversion of glucose, the most abundant sugar in renewable biomass, but presently their synthesis requires highly toxic chemicals with long synthesis times. We report the conversion of glucose into fructose and 5‐hydroxymethylfurfural on a heterogeneous catalyst that is stable and selective and operates in the most environmentally benign solvent, water. We used a bifunctional solid with Lewis and Brønsted acid sites by partially replacing the organic linker of the zirconium organic framework UiO‐66 with 2‐monosulfo‐benzene‐1,4‐dicarboxylate. This catalyst showed high product selectivity (90 %) to 5‐hydroxymethylfurfural and fructose at 140 °C in water after a reaction time of 3 h. It was recyclable and showed only a minor loss in activity after the third recycle, offering a realistic solution for the bottleneck glucose isomerization reaction for scale‐up and industrial application of biomass utilization.
Highlights
Heterogeneous catalysts are desired for the conversion of glucose, the most abundant sugar in renewable biomass, but presently their synthesis requires highly toxic chemicals with long synthesis times
We report the conversion of glucose to fructose and 5-hydroxymethyl furfural on a heterogeneous catalyst that is stable and selective and operates in most environmentally benign solvent, water
Biomass derived sugars can be converted into platform molecules, e.g. 5-hydroxymethyl furfural (HMF), which can be further processed into monomers, fuel additives, paints and a variety of fine chemicals envisaged in a future biorefinery[3,4]
Summary
Heterogeneous catalysts are desired for the conversion of glucose, the most abundant sugar in renewable biomass, but presently their synthesis requires highly toxic chemicals with long synthesis times. We used a bi-functional solid with Lewis and Brønsted acid sites by partially replacing the organic linker of the zirconium organic framework UiO-66 with 2-mono-sulfo-benzene-1,4-dicarboxylate. This catalyst shows high product selectivity (90 %) of 5hydroxymethylfurfural and fructose at 140°C in water after 3 h reaction.
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