High-yield selective conversion of carbohydrates to methyl levulinate using mesoporous sulfated titania-based catalysts

[Display omitted] •Single-step synthesis of mesoporous sulfated-TiO2 and TiO2–ZrO2 catalysts.•Dehydration of sugars to methyl levulinate over mesoporous sulfated metal oxides.•Methanolysis of cellulose over mesoporous metal oxide acid catalysts. Mesoporous sulfated-metal oxides and mixed-metal oxide...

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Bibliographic Details
Published in:Microporous and mesoporous materials Vol. 202; pp. 68 - 72
Main Authors: Njagi, Eric C., Genuino, Homer C., Kuo, Chung-Hao, Dharmarathna, Saminda, Gudz, Anton, Suib, Steven L.
Format: Journal Article
Language:English
Published: Elsevier Inc 15-01-2015
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Summary:[Display omitted] •Single-step synthesis of mesoporous sulfated-TiO2 and TiO2–ZrO2 catalysts.•Dehydration of sugars to methyl levulinate over mesoporous sulfated metal oxides.•Methanolysis of cellulose over mesoporous metal oxide acid catalysts. Mesoporous sulfated-metal oxides and mixed-metal oxides prepared by a facile coprecipitation method employing titanium oxysulfate–sulfuric acid complex as a precursor of both titanium and sulfate are highly active and selective for direct methanolysis of carbohydrates to methyl levulinate. The most active sulfated TiO2–ZrO2 catalyst selectively converted fructose to methyl levulinate with a remarkably high yield (71%) after 1h at 200°C. Significant amounts of methyl levulinate were also obtained from sucrose (54%) and glucose (23%) after 1h at 200°C. The used catalyst was easily recovered and recycled without any loss of selectivity although activity decreased due to humin deposition on the surface. The spent catalysts were easily rejuvenated through calcination in air. The formation of ethers during dehydration was negligible suggesting that methanol can be recycled after distillation.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2014.09.044