A simple spectroscopic method to determine dimethoate in water samples by complex formation

Aline Romero-Natale, G. Rebollar-Pérez, I. Ortíz, M. G. Tenorio-Arvide, R. Munguia-Perez, I. Palchetti, E. Torres
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引用次数: 4

Abstract

Abstract A simple and rapid method for the determination of dimethoate in water was developed based on the monitoring of the complex formation between bis 5-phenyldipyrrinate of nickel (II) and the herbicide dimethoate. The method showed a short response time (10 s), high selectivity (very low interference from other sulfate and salts), high sensitivity (limit of detection (LOD) 0.45 µM, limit of quantitation (LOQ) of 1.39 µM), and a Kd of 2.4 µM. Stoichiometry experiments showed that complex formation occurred with a 1:1 relation. The method was applied to different environmental water samples such as lagoon, stream, urban, and groundwater samples. The results indicated that independently from the water source, the method exhibited high precision (0.25–2.47% variation coefficient) and accuracy (84.42–115.68% recovery). In addition, the method was also tested using an effluent from a wastewater treatment plant from Mexico; however, the results indicated that the presence of organic matter had a pronounced effect on the detection.
用复杂地层法测定水样中乐果的简易光谱法
摘要建立了一种简便快速测定水中乐果的方法,该方法通过监测其与除草剂乐果之间的络合物形成。该方法反应时间短(10 s),选择性高(对其他硫酸盐和盐类的干扰很小),灵敏度高(检出限0.45µM,定量限1.39µM), Kd为2.4µM。化学计量实验表明,络合物的形成呈1:1的关系。该方法适用于泻湖、河流、城市和地下水等不同环境水样。结果表明,该方法具有较高的精密度(变异系数0.25 ~ 2.47%)和准确度(回收率84.42 ~ 115.68%)。此外,还使用墨西哥一家污水处理厂的废水对该方法进行了测试;然而,结果表明,有机物的存在对检测有明显的影响。
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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