Determination of zinc in vegetal tissue microsamples by platinum-wire loop in flame atomization atomic absorption spectrometry

Ladislau Kékedy-Nagy , Yao Jun , Eugen Darvasi , László Kékedy-Nagy Jr.
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引用次数: 1

Abstract

The zinc content of 3 μL of vegetal samples (tree leaves, lichens and grape sap) atomized from a Pt-wire in the methane–air flame has been determined by atomic absorption spectrometry. The effect of gas flow rates and the atomization height in the flame on the absorption of zinc was evaluated at 213.9 nm. The best results were obtained at a height of 5 mm and gas flow rates of 200 L/h air and 26 L/h methane, respectively. The effect of Na, K, Ca, Mg, SO42−, and PO43− on the absorption of zinc was studied too. The detection limit of 0.40 ± 0.21 ng was obtained at a significance level of 0.05, using the two-step Neyman–Pearson criterion. The zinc content of the samples has been determined with continuous nebulization and by atomization from the Pt-wire, using both the standard calibration curve and the standard addition method. The results of the two procedures agree within the determination errors.

火焰雾化原子吸收法测定植物组织微量样品中的锌
采用原子吸收光谱法测定了植物样品(树叶、地衣和葡萄汁)在甲烷-空气火焰中雾化3 μL的锌含量。在213.9 nm处考察了气体流速和火焰雾化高度对锌吸收率的影响。在高度为5 mm、空气流速为200 L/h、甲烷流速为26 L/h时效果最佳。还研究了Na、K、Ca、Mg、SO42−和PO43−对锌吸附的影响。采用两步Neyman-Pearson标准,检出限为0.40±0.21 ng,显著性水平为0.05。采用标准校准曲线法和标准加入法,用连续雾化法和铂丝雾化法测定了样品的锌含量。两种方法的测定结果在测定误差范围内一致。
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