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Hydrothermal synthesis of highly porous carbon monoliths from carbohydrates and phloroglucinol
Publikationstyp
Journal Article
Date Issued
2013-07-15
Sprache
English
Institut
TORE-URI
Journal
Volume
3
Issue
38
Start Page
17088
End Page
17096
Citation
RSC Advances 38 (3): 17088-17096 (2013)
Publisher DOI
Scopus ID
Publisher
Royal Society of Chemistry
A new sustainable approach for the synthesis of highly porous carbon cryogels and aerogels is presented. Such monolithic carbogels have been obtained via the hydrothermal gelation of a phenolic compound, i.e. phloroglucinol, with monosaccharides, i.e. glucose, fructose or xylose. While the carbon precursors used herein can be isolated from lignocellulosic biomass, the hydrothermal carbonization process does not involve any catalyst, making our current approach meet green chemistry principles. Beyond an understanding of the gelation process, the influence of the drying method and synthetic pathways on the final textural properties has been underlined. Because of surprisingly high micro-mesopore surface areas and volumes, up to 1159 m2 g -1 and 1.5 cm3 g-1 respectively, together with airy interlinked macromorphologies, these sugar-derived dried-gels appear as really promising candidates for separation and heterogeneous catalysis. Furthermore, after further thermal treatment under inert atmosphere, conductive carbogels depicting significant specific surface areas and volumes, up to 700 m2 g-1 and 0.9 cm3 g-1, together with a preserved monolithic morphology can be obtained. Thus, these new biomass-derived carbogels are expected to offer a broad range of potential applications, such as electrodes for batteries and fuel cells, or scaffolds for hydrogen and carbon dioxide storage. © 2013 The Royal Society of Chemistry.
DDC Class
540: Chemie