Core-shell polymer microspheres with strong cation-exchange character for the extraction of basic pharmaceuticals from aqueous samples

IF 5.2 Q1 CHEMISTRY, ANALYTICAL Advances in Sample Preparation Pub Date : 2024-10-01 DOI:10.1016/j.sampre.2024.100136
Alberto Moral , Alan Corrigan , Francesc Borrull , Peter A.G. Cormack , Núria Fontanals , Rosa Maria Marcé
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Abstract

The application of core-shell materials as packing materials for liquid chromatography columns is common in analytical chemistry, however their use as sorbents in solid-phase extraction (SPE) is surprisingly underexplored. In the present study, core-shell polymer microspheres with strong cation-exchange character were designed and synthesized. These new materials benefit from having hypercrosslinked and relatively thin functional shells, which raises the specific surface areas and sorption capacities of the sorbents and allows for relatively shorter diffusion path lengths for analytes.
The core-shell polymer microspheres were evaluated as SPE sorbents for the extraction of basic pharmaceuticals from environmental water samples. Following optimization of the pH and volume of the loading solution, as well as optimization of the loading step, the SPE method was validated in terms of apparent and relative recoveries, matrix effect, limits of detection and quantification and precision. The method yielded very promising results in terms of apparent recoveries (>39 %) and matrix effect (<±29 %) and was applied successfully to the determination of basic pharmaceuticals in environmental water samples (river water, effluent wastewater and influent wastewater).

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具有强阳离子交换特性的核壳聚合物微球用于从水样品中提取基本药物
将核壳材料用作液相色谱柱的填料在分析化学中很常见,但将其用作固相萃取(SPE)中的吸附剂却鲜有人问津。本研究设计并合成了具有强阳离子交换特性的核壳聚合物微球。这些新材料具有超交联和相对较薄的功能性外壳,从而提高了吸附剂的比表面积和吸附能力,并使分析物的扩散路径长度相对较短。在优化了上样溶液的 pH 值和体积以及上样步骤后,从表观和相对回收率、基质效应、检出限、定量限和精密度等方面对 SPE 方法进行了验证。该方法在表观回收率(39%)和基质效应(±29%)方面都取得了很好的结果,并成功应用于环境水样(河水、废水和进水)中基本药物的测定。
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