溴在水溶液中氧化 D-葡萄糖的动力学研究。

A kinetic study of D-glucose oxidation by bromine in aqueous solutions.

作者信息

Grgur Branimir N, Zugić Dragana L, Gvozdenović Milica M, Trisović Tomislav Lj

机构信息

Faculty of Technology and Metallurgy, University of Belgrade, Serbia and Montenegro.

出版信息

Carbohydr Res. 2006 Aug 14;341(11):1779-87. doi: 10.1016/j.carres.2006.04.035. Epub 2006 May 11.

DOI:10.1016/j.carres.2006.04.035

PMID:16696959

Abstract

The kinetics of the oxidation of D-glucose to D-gluconic acid by bromine in aqueous solution were studied using potentiometric techniques and theoretical considerations of complex bromine-bromide-pH equilibria. The pH has a strong influence on reaction rate. At pH < 8 the reaction is very slow, while in the pH range pH 8-9.5 the reaction is sufficiently fast and seems optimal for the reaction. The proposed active species at that pH region is hypobromous acid. At pH > 9.5, the reaction is further accelerated due to the formation of hypobromite. The proposed kinetics expression for gluconic acid formation, based on the determined kinetic parameters at pH 9.24, is of the form dc(GA)/dt = 160c(2)(G)c(o)(HOBr)c(o)(H(+)c(o)(Br)

摘要

采用电位滴定技术并结合溴 - 溴化物 - pH平衡的理论考量，研究了水溶液中溴将D - 葡萄糖氧化为D - 葡萄糖酸的动力学。pH对反应速率有很大影响。在pH < 8时，反应非常缓慢，而在pH 8 - 9.5范围内，反应足够快，似乎是该反应的最佳条件。在该pH区域提出的活性物种是次溴酸。在pH > 9.5时，由于次溴酸盐的形成，反应进一步加速。基于在pH 9.24时测定的动力学参数，提出的葡萄糖酸形成的动力学表达式形式为dc(GA)/dt = 160c(2)(G)c(o)(HOBr)c(o)(H(+)c(o)(Br)

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溴在水溶液中氧化 D-葡萄糖的动力学研究。

A kinetic study of D-glucose oxidation by bromine in aqueous solutions.

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