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Kinetic Role of Reactive Intermediates in Controlling the Formation of Chlorine Dioxide in the Hypochlorous Acid–Chlorite Ion Reaction

化学 二氧化氯 次氯酸 氯酸盐 绿泥石 反应机理 化学计量学 动力学 氧化还原 无机化学 反应中间体 反应级数 化学动力学 反应速率常数 氧化剂 动能 离子 氯胺 催化作用 有机化学 物理 古生物学 生物 石英 量子力学
作者
Dávid Angyal,István Fábián,Mária Szabó
出处
期刊:Inorganic Chemistry [American Chemical Society]
卷期号:62 (14): 5426-5434 被引量:4
标识
DOI:10.1021/acs.inorgchem.2c04329
摘要

An advanced experimental protocol is reported for studying the kinetics and mechanism of the complex redox reaction between chlorite ion and hypochlorous acid under acidic condition. The formation of ClO2 is followed directly by the classical two-component stopped-flow method. In sequential stopped-flow experiments, the target reaction is chemically quenched using NaI solution and the concentration of each reactant and product is monitored as a function of time by utilizing the principles of kinetic discrimination. Thus, in contrast to earlier studies, not only the formation of one of the products but the decay of the reactants was also directly followed. This approach provides a firm basis for postulating a detailed mechanism for the interpretation of the experimental results under a variety of conditions. The intimate details of the reaction are explored by simultaneously fitting 78 kinetic traces, i.e., the concentration vs. time profiles of ClO2-, HOCl, and ClO2, to an 11-step kinetic model. The most important reaction steps were identified, and it was shown that two reactive intermediates have a pivotal role in the mechanism. While chlorate ion predominantly forms via the reaction of Cl2O, chlorine dioxide is exclusively produced in reaction steps involving Cl2O2. This study leads to clear conclusions on how to control the stoichiometry of the reaction and achieve optimum conditions to produce chlorine dioxide and to reduce the formation of the toxic chlorate ion in practical applications.

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