Selective dehydration of glucose to 5-hydroxymethylfurfural on acidic mesoporous tantalum phosphate

[EN]Mesoporous tantalum phosphate was prepared from tantalum tartrate and ammonium phosphate monobasic in the presence of an ionic surfactant at room temperature, and subsequent calcined at 550 °C. This solid exhibits a high specific surface area (256 m2 g−1) and strong acidity (1.48 mmol NH3 g−1),...

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Detalles Bibliográficos
Autores: Jiménez Morales, Ignacio, Teckchandani-Ortiz, A., Santamaría-González, J., Maireles-Torres, P., Jiménez-López, A.
Tipo de recurso: artículo
Estado:Versión borrador
Fecha de publicación:2014
País:España
Institución:Universidad de Salamanca (USAL)
Repositorio:GREDOS. Repositorio Institucional de la Universidad de Salamanca
OAI Identifier:oai:gredos.usal.es:10366/163117
Acceso en línea:http://hdl.handle.net/10366/163117
Access Level:acceso abierto
Palabra clave:5-Hydroxymethylfurfural
Mesoporous tantalum phosphate
Glucose dehydration
Levulinic acid
2210.28 Química del Estado Sólido
2303 Química Inorgánica
2391 Química Ambiental
Descripción
Sumario:[EN]Mesoporous tantalum phosphate was prepared from tantalum tartrate and ammonium phosphate monobasic in the presence of an ionic surfactant at room temperature, and subsequent calcined at 550 °C. This solid exhibits a high specific surface area (256 m2 g−1) and strong acidity (1.48 mmol NH3 g−1), and it has been successfully used as solid acid catalyst in the dehydration of glucose to 5-hydroxymethylfurfural (HMF) in a biphasic water/methyl isobutyl ketone medium. By using a glucose:catalyst weight ratio of 3:1, a glucose conversion of 56.3% and a HMF yield of 32.8% were achieved at 170 °C, and after only 1 h of reaction time. The reaction is very selective towards HMF, which is the unique product detected and moreover it is preserved from ulterior hydration to levulinic acid. Fructose was never found as by-product in the reaction. The catalyst is very stable under these experimental conditions, since no leaching of phosphorus or tantalum species to the liquid phase was found. The catalytic performance of this acid solid is well maintained after three catalytic cycles. The high catalytic activity of this mesoporous solid in the dehydration of glucose could be associated to its high acidity and the presence of both Brönsted and Lewis acid sites, which are maintained in water.