锆(iv)与二苯唑和十六烷基吡啶氯形成多配体配合物的分光光度法研究

I. Ahmadov, A. Pashajanov
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引用次数: 0

摘要

本文研究了锆(IV)与二苯唑和十六烷基吡啶氯的多配体配合物的分光光度分析。以二氯乙烷为萃取剂,乙腈为分散剂。确定了复杂地层的最佳条件。采用plackett Burman设计和中心复合设计(通过Minitab 19程序)统计计算提取过程和复合物形成的结果。得到的数值表明,实验结果可以用统计结果表示。在络合物形成过程中影响吸收的最重要因素是pH和配体含量。为获得最大吸收,pH为4.5,配体含量为300µL。用各种方法测定了配合物中各组分的化学计量组成。服从Baer定律的区间为2 ~ 7.6 μ mL-1,摩尔光吸收系数为2.6 × 104 L Mol-1 cm -1, λmax = 590nm。建立了测定水样中微量元素锆(IV)的高选择性方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SPECTROPHOTOMETRIC RESEARCH INTO MULTI-LIGAND COMPLEXES FORMED BY ZIRCONIUM (IV) WITH STILBAZOLE AND CETYLPYRIDINIUM CHLORIDE
This study deals spectrophotometric analysis of the multi-ligand complex of zirconium (IV) with stilbazole and cetylpyridinium chloride. Dichloroethane was selected as the extragent and acetonitrile as the dispersant solution. Optimal conditions for the complex formation were identified. The results of the extraction process and complex formation were calculated statistically withPlackett Burman design and central composite design (via the Minitab 19 program). The values obtained showed that experimental results can be expressed as statistical results. Most important factors influencing absorption during complex formation were pH and ligand content. To obtain the maximum absorption, pH should be 4.5 and the ligand content should be 300 µL. The stoichiometric composition of the components in the complex was determined by various methods. The interval of subordination to Baer's law was 2-7.6 μg mL-1 , the molar light absorption coefficient was 2.6 × 104 L Mol-1 cm -1 , λmax = 590nm. A highly selective methodology was developed to determine the zirconium (IV) micronutrients in water samples.
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