Abstract
In this study a simple and sensitive on-line sorbent extraction platform coupled with flame atomic absorption spectrometry for trace metals determination was developed. The system utilized for the first time a novel sol-gel thiocyanatopropyl functionalized silica as adsorbent for metal’s separation and preconcentration. The main factors affecting the performance of the on-line system were investigated and optimized. The effect of potential interfering species that occur naturally in environmental and biological samples, as well as some toxic elements, was evaluated. Under optimum conditions the enhancement factors ranged between 73 and 152 for the target analytes. The LODs of the proposed methods were 0.15 μg L−1 for Cd(II), 0.5 μg L−1 for Co(II), 0.5 μg L−1 for Cu(II) and 1.9 μg L−1 for Pb(II) for 120 s preconcentration time. The relative standard deviation values for all elements were less than 3.8%, indicating good method precision. Moreover, the sol-gel thiocyanatopropyl functionalized silica-packed microcolumns exhibited limited flow resistance and excellent packing reproducibility. Finally, the proposed method was utilized for the analysis of environmental and biological samples.
Highlights
Accepted: 5 July 2021The rapid development of industrialization is associated with ever-increasing environmental pollution
The main parameters affecting the performance of the proposed on-line method, considering the sensitivity, the analysis time, as well as the reagent and sample consumption, were investigated and optimized
The presented sorbent was based on sol-gel technology, which is a well-established technique for effective sorbents on various substrates
Summary
Accepted: 5 July 2021The rapid development of industrialization is associated with ever-increasing environmental pollution. Toxic metals are among the most dangerous pollutants, due to their wide distribution and their high toxicity. Atomic spectrometric techniques serve as excellent analytical systems for the determination of metals. Typical examples of these techniques include flame atomic absorption spectrometry (FAAS), flame atomic emission spectroscopy (FAES), cold vapor atomic absorption spectrometry (CV-AAS), inductively coupled plasma atomic emission spectrometry (ICP-AES) and inductively coupled plasma mass spectrometry (ICP-MS) [2]. The combination of flow systems, such as flow injection (FI), that serve as simple, handy and versatile tools, with robust analytical techniques has proven to be a powerful tool for metal determination [3]
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