Rapid and sensitive determination of trace chloride ion in drinks using resonance light scattering technique.

Journal of Automated Methods & Management in Chemistry Pub Date : 2008-01-01 DOI:10.1155/2008/745636

Hui Cao, Dong Hui Wu

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引用次数: 14

Abstract

A resonance light scattering (RLS) technique to determine chloride ions in drinks was developed. Chloride ions were found to bind Ag(+) forming AgCl aggregates that produced intense resonance scattering light. Effects of factors such as acidity, ionic strength, and coexistent interferents on the RLS of AgCl aggregates were investigated. The pH of solution almost did not affect the production of RLS and few foreign species interfered with the detection of chloride ions. The resonance scattering light intensity at the maximum peak of 571 nm was linear to the concentration of chloride ions in the range of 1.42-8.52 ng mL(-1) with a detection limit of 0.71 ng mL(-1). To determine the feasibility of the proposed method, some samples of water and drinks were analyzed. The attained results were in agreement with that of ion-selective electrode method. Good recovery results were also obtained with the range of 94.08-105.63%. The sensitivity and selectivity of the RLS method are high enough to determine trace amounts of chloride ions without any significant interference from high concentration of other components such as common anions and cations.

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共振光散射技术快速灵敏测定饮料中痕量氯离子。

建立了共振光散射法测定饮料中氯离子的方法。发现氯离子结合Ag(+)形成AgCl聚集体，产生强烈的共振散射光。研究了酸度、离子强度、共存干扰等因素对AgCl聚集体RLS的影响。溶液的pH几乎不影响RLS的产生，少数外来物种干扰氯离子的检测。最大峰571 nm处的共振散射光强与氯离子浓度在1.42 ~ 8.52 ng mL(-1)范围内呈线性关系，检出限为0.71 ng mL(-1)。为了确定所提出方法的可行性，对一些水和饮料样品进行了分析。所得结果与离子选择电极法的结果一致。回收率为94.08 ~ 105.63%，效果良好。RLS方法的灵敏度和选择性足够高，可以测定痕量氯离子，而不会受到高浓度其他组分(如普通阴离子和阳离子)的明显干扰。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Automated Methods & Management in Chemistry 化学-分析化学

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>12 weeks