胶束色谱法分离重金属离子及硅酸铋层上UO22+的分光光度测定

International Journal of Chemical and Analytical Science Pub Date : 2013-06-01 DOI:10.1016/j.ijcas.2013.07.003

Sarang Sahebrao Dhote , Lata Deshmukh , Lalitmohan Paliwal

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引用次数: 7

摘要

胶束薄层色谱(MLC)用于各种环境样品中各种重金属离子的分离。MLC成功地应用于金属离子的半定量和光谱鉴定。目的利用液相色谱法分离、半定量测定硅酸铋层上UO22+，并用吐温-80进行色谱分析。方法以水溶液胶束、水-有机和水-有机表面活性剂为流动相，进行上升显影。在硅酸铋薄层和非离子表面活性剂Tween-80形成的薄层上进行分离。结果与结论以10%的浓度和5%的Tween-80为最有效的添加剂。该方法成功地应用于河流水和工业废水中Cd2、Hg2和Co2的鉴定与分离。采用半定量和光谱法对河水中UO22+进行了定量分析，初步分离了Fe3和Cu2。观察到的最大回收率为90%。该方法快速，开发时间平均为2-5分钟。

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Miceller chromatographic method for the separation of heavy metal ions and spectrophotometric estimation of UO22+ on bismuth silicate layer

Context

Micellar thin layer chromatography (MLC) used for separation of various heavy metal ions from various environmental samples. MLC successfully applied for semiquanitative and spectrometry identification of metal ions.

Objective

Utilization of MLC in separation, semiquanitative determination and Chromatospectrometric method for estimation of ${UO}_{2}^{2 +}$ on bismuth silicate layer, using Tween-80.

Method

Ascending development of the plates performed with aq. micellar, hydro-organic and water-organic-surfactant as mobile phase. Separation carried out on thin layer of bismuth silicate and layer developed with non-ionic surfactant Tween-80.

Results and conclusions

Acetone was found to be most effective additive at 10% concentration with 5% Tween-80. This method successfully applied to identification and separation of Cd₂, Hg₂ and Co₂ from river water and industrial wastewater. Semiquantitative as well as spectrometry techniques was used for quantitative analysis of ${UO}_{2}^{2 +}$ in river water with preliminary separation from Fe₃ and Cu₂. Maximal recovery of 90% observed. This TLC method is rapid, with development times averaging 2–5 min.

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来源期刊

International Journal of Chemical and Analytical Science

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