Comparison of hydrothermal and photocatalytic conversion of glucose with commercial TiO 2 : Superficial properties-activities relationships

Recently, the photocatalytic conversion of glucose appeared as an environmentally friendly route to produce valuable molecules. However, the potential of this new route in comparison with the usual hydrothermal catalytic process remained questionable. In this paper, we compared the two routes using...

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Bibliographic Details
Published in:Catalysis today 2020-03
Main Authors: Abdouli, Insaf, Eternot, Marion, Dappozze, Frederic, Guillard, C., Essayem, Nadine
Format: Article
Language:English
Subjects:
Chemical Sciences
Environmental Sciences
Online Access:Get full text
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Summary:Recently, the photocatalytic conversion of glucose appeared as an environmentally friendly route to produce valuable molecules. However, the potential of this new route in comparison with the usual hydrothermal catalytic process remained questionable. In this paper, we compared the two routes using three commercial TiO 2 as catalysts in the same reactor. The TiO 2 superficial acidity and basicity were determined by calorimetry and FTIR of CO 2 , NH 3 and pyridine adsorption. Relationships between the acid-base properties, the TiO 2 glucose adsorption capacities measured in water and their photocatalytic or hydrothermal performances were proposed: while the photocatalytic performances could be linked to the catalysts' Lewis acid sites density and their glucose adsorption capacities, the hydrothermal performances were dependent of the catalysts' basic/acid sites balance. We highlighted that the conversion of glucose over TiO 2 was as efficient with the photocatalytic process at ambient temperature as with the hydrothermal process at 120°C. This underlines the potential of the photocatalytic route at the lab scale as regards to the milder experimental conditions involved.
ISSN:0920-5861
DOI:10.1016/j.cattod.2020.03.040