Hydrothermal Dehydration of Aqueous Fructose Solutions in a Closed System

Hydrothermal Dehydration of Aqueous Fructose Solutions in a Closed System

Aqueous monosaccharide solutions including glucose or fructose have been hydrothermally treated in a closed system to form colloidal carbon spheres. In-situ Raman and 13C NMR have been used to quantify the intramolecular dehydration moiety, HMF, as an intermediate. An aqueous glucose solution forms...

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Veröffentlicht in:Journal of Physical Chemistry C, 111(42):15141-15145 111(42):15141-15145, 2007-10, Vol.111 (42), p.15141-15145
Hauptverfasser: Yao, Chunhua, Shin, Yongsoon, Wang, Li-Qiong, Windisch, Charles F, Samuels, William D, Arey, Bruce W, Wang, Chongmin, Risen, William M, Exarhos, Gregory J
Format: Artikel
Sprache:eng
Schlagworte:
AQUEOUS SOLUTIONS
CARBON
carbon spheres
DEHYDRATION
FRUCTOSE
functional
Glucose
HYDROTHERMAL SYNTHESIS
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
MICROSPHERES
porous
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Zusammenfassung:Aqueous monosaccharide solutions including glucose or fructose have been hydrothermally treated in a closed system to form colloidal carbon spheres. In-situ Raman and 13C NMR have been used to quantify the intramolecular dehydration moiety, HMF, as an intermediate. An aqueous glucose solution forms a carbon sphere via an intermolecular dehydration route without forming HMF during initial hydrothermal treatment and followed by carbonization at 170−180 °C. However, an aqueous fructose solution initially forms HMF by intramolecular dehydration at 120−140 °C. Upon subsequent polymerization, microscopic carbon-containing spheres assemble to larger spheres, thereby generating a grain-like surface morphology. The carbon sphere contains a dense hydrophobic carbon core and a hydrophilic shell.
ISSN:1932-7447
1932-7455
DOI:10.1021/jp074188l