Article ID Journal Published Year Pages File Type
1227695 Microchemical Journal 2015 7 Pages PDF
Abstract

•Application of SSETV-μCCP-OES for Cd and Pb determination in environmental samples.•Evaluation of non-spectral interferences of the multimineral matrix in soil.•Evaluation of figures of merit of SSETV-μCCP-OES using the standard addition method.

The study discusses the applicability and analytical capability of a laboratory miniaturized system including a small-sized electrothermal vaporizer with Rh filament and a low power (15 W) and low Ar consumption (150 ml min− 1) capacitively coupled plasma microtorch interfaced with a low resolution microspectrometer for the simultaneous determination of Cd and Pb in environmental samples by optical emission spectrometry. Ten-microliter samples were dried (100 °C, 80 s) and vaporized (1500 °C, 6 s) by filament heating, then sample vapor was introduced into plasma via an Ar stream and 20 successive emission episodes were recorded with 500 ms integration time per episode. The operating parameters of the electrothermal vaporization device and plasma were optimized in order to achieve the simultaneous determination of the two elements with best analytical performance. The method was verified by analyzing CRMs of soil, and then applied to real samples digested in aqua regia. The standard addition method was used to compensate for the non-spectral matrix effects on the analytical signal. Under the optimized conditions the limits of detection were 130 ± 35 μg kg− 1 (13 pg) for Cd at 228.802 nm and 2100 ± 175 μg kg− 1 (210 pg) for Pb at 368.346 nm. Recovery was in the range 98 ± 18% for Cd and 103 ± 11% for Pb for 95% confidence interval, while the relative standard deviation of repeatability was 4–12% (n = 3). The investigated instrumentation has analytical potential and prototyping perspective to be used for toxic element determination in environmental samples.

Related Topics
Physical Sciences and Engineering Chemistry Analytical Chemistry
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