Spectroscopy of Hydrothermal Reactions. 14. Kinetics of the pH-Sensitive Aminoguanidine−Semicarbazide−Cyanate Reaction Network

Spectroscopy of Hydrothermal Reactions. 14. Kinetics of the pH-Sensitive Aminoguanidine−Semicarbazide−Cyanate Reaction Network

Infrared spectroscopy in conjunction with an optically accessed flow reactor enable real-time concentration measurements to be made on species involved in hydrothermal reactions. The kinetics of the reaction of the aqueous cyanate ion, OCN-, at 110−160 °C and 275 bar were determined at pH = 3.94−10....

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Bibliographic Details
Published in:The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory Vol. 103; no. 39; pp. 7826 - 7833
Main Authors: Belsky, A. J, Brill, T. B
Format: Journal Article
Language:English
Published: American Chemical Society 30-09-1999
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Summary:Infrared spectroscopy in conjunction with an optically accessed flow reactor enable real-time concentration measurements to be made on species involved in hydrothermal reactions. The kinetics of the reaction of the aqueous cyanate ion, OCN-, at 110−160 °C and 275 bar were determined at pH = 3.94−10.5. These kinetics are useful because OCN- is frequently the precursor to the NH3 and CO2 products seen during the hydrothermolysis of organic amines. Three rate constants were needed to model the cyanate reaction. These rates were then used to model the hydrothermolysis kinetics of the progressively more complex reactions of the isoelectronic cations of semicarbazide (T = 140−170 °C) and aminoguanidine (T = 190−260 °C) in neutral and acidic solutions. Six internally consistent rate constants were obtained in order to specify the reaction network.
Bibliography:istex:B11C246FCECAE34D02EA00C256AFCD6B9A271F59
ark:/67375/TPS-4LMTLSL8-G
ISSN:1089-5639
1520-5215
DOI:10.1021/jp991878j