电位溶出分析的发展与应用

Ljiljana Babincev, D. Gurešić, R. Simonović
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摘要

研究了伏安法测定水中铅、镉、锌的方法。研究了两种测定方法:分别测定和同时测定三种金属。实验采用电位溶出分析法(PSA)进行。在测定实际样品中的金属之前要进行初步试验。为了确定最佳的测量条件,进行了初步的研究。结果表明:pH值、金属萃取时间、溶液搅拌速率和工作电极上汞层厚度对测定过程的影响最大。用这种方法可以测定的最小金属浓度为:铅22.48 μg dm -3,镉16.23 μg dm -3,锌18.75 μg dm -3。所得结果与实际偏差较大,铅为1.12%,镉为1.91%,锌为1.81%。所有试验(单独和同时)均在模型溶液中进行,浓度如下:铅为44.96 μg dm -3,镉为32.47 μg dm -3,锌为37.50 μg dm -3。个别测量结果的偏差铅为1.02%,镉为1.90%,锌为1.89%。同时,铅、镉、锌的含量分别低于实际含量- 4.58%、- 1.91%和- 1.89%。对于测定的条件,除铅外,偏差不超过±2%。这表明电位溶出分析法是一种单独和同时测定铅、镉和锌以及测定水中(河流和地下水)铅、镉和锌浓度的好方法。
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Development and application of potentiometric stripping analysis
This paper focuses on the voltammetric determination of lead, cadmium and zinc in water. Two ways of determining were investigated: individually and all three metals simultaneously. The experiments were performed using the Potentiometric Stripping Analysis (PSA). Determination of metals in real samples was preceded by preliminary tests. Preliminary investigations were performed in order to determine the optimal conditions of measurement. It was concluded that the process of determining was for most part influenced by: pH, time of metals extraction, stirring rate of the solution and the thickness of the mercury layer on the working electrode. The s mallest concentrations of metals which can be deter mined using this method are: for lead 22.48 μg dm -3 , for cadmium 16.23 μg dm -3 and for zinc 18.75 μg dm -3 . The obtained results deviated from the actual 1.12% for lead, 1.91% for cadmium and 1.81% for zinc. All tests (individually and simultaneously) were conducted from model solution with concentration as follows: 44.96 μg dm -3 for lead, 32.47 μg dm -3 for cadmium and 37.50 μg dm -3 for zinc. The results of individual measurements deviated by 1.02% lead, 1.90% for cadmium and 1.89% for zinc. Simultaneously the contents were lower than real for: −4.58% for lead, cadmium for −1.91% and −1.89% for zinc. For the conditions determined, except for lead, deviations did not exceed ±2% . This indicates that Potentiometric Stripping Analysis is a good way of individual and simultaneous determination of lead, cadmium and zinc and for determination of their concentrations in water (river and groundwater).
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