Catalytic dehydration of xylose to furfural: vanadyl pyrophosphate as source of active soluble species

[Display omitted] ► The dehydration of xylose into furfural is effectively carried out in the presence of vanadium phosphates catalysts. ► Based on catalytic tests and solid state characterisation, (VO) 2P 2O 7 is a fairly stable solid acid. ► (VO) 2P 2O 7 is a source of active water-soluble species...

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Published in:Carbohydrate research 2011-12, Vol.346 (17), p.2785-2791
Main Authors: Sádaba, Irantzu, Lima, Sérgio, Valente, Anabela A., López Granados, Manuel
Format: Article
Language:English
Subjects:
Acid catalysis
Catalysis
catalysts
catalytic activity
centrifugation
Crystallization
Diphosphates - chemistry
Furaldehyde - chemical synthesis
Furfural
hemicellulose
Homogeneous catalysis
phosphates
Phosphates - chemistry
Powder Diffraction
recycling
solvents
Spectroscopy, Fourier Transform Infrared
toluene
Vanadates - chemistry
vanadium
Vanadyl pyrophosphate
X-Ray Diffraction
xylan
Xylose
Xylose - chemistry
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Summary:[Display omitted] ► The dehydration of xylose into furfural is effectively carried out in the presence of vanadium phosphates catalysts. ► Based on catalytic tests and solid state characterisation, (VO) 2P 2O 7 is a fairly stable solid acid. ► (VO) 2P 2O 7 is a source of active water-soluble species. ► A concentration of (VO) 2P 2O 7 as low as 5 mM, gave ca. 56% furfural yield, at 170 °C/6 h reaction. The acid-catalysed, aqueous phase dehydration of xylose (a monosaccharide obtainable from hemicelluloses, e.g., xylan) to furfural was investigated using vanadium phosphates (VPO) as catalysts: the precursors, VOPO 4·2H 2O, VOHPO 4·0.5H 2O and VO(H 2PO 4) 2, and the materials prepared by calcination of these precursors, that is, γ-VOPO 4, (VO) 2P 2O 7 and VO(PO 3) 2, respectively. The VPO precursors were completely soluble in the reaction medium. In contrast, the orthorhombic vanadyl pyrophosphate (VO) 2P 2O 7, prepared by calcination of VOHPO 4·0.5H 2O at 550 °C/2 h, could be recycled by simply separating the solid acid from the reaction mixture by centrifugation, and no drop in catalytic activity and furfural yields was observed in consecutive 4 h-batch runs (ca. 53% furfural yield, at 170 °C). However, detailed catalytic/characterisation studies revealed that the vanadyl pyrophosphate acts as a source of active water-soluble species in this reaction. For a concentration of (VO) 2P 2O 7 as low as 5 mM, the catalytic reaction of xylose (ca. 0.67 M xylose in water, and toluene as solvent for the in situ extraction of furfural) gave ca. 56% furfural yield, at 170 °C/6 h reaction.
ISSN:0008-6215
1873-426X
DOI:10.1016/j.carres.2011.10.001