Vacuum-assisted headspace-solid phase microextraction of pesticides in grape samples

IF 5.2 Q1 CHEMISTRY, ANALYTICAL Advances in Sample Preparation Pub Date : 2024-07-01 DOI:10.1016/j.sampre.2024.100123
Yerkanat Syrgabek, Mereke Alimzhanova, Saltanat Yegemova, Svetlana Batyrbekova
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Abstract

Vacuum-assisted headspace solid-phase microextraction (Vac-HS-SPME) could provide an alternative for extracting pesticides from grape samples. Vac-HS-SPME method is utilized to the simultaneous analysis of six pesticides from various classes, namely boscalid, quizalofop-p-methyl, oxyfluorfen, fluroxypyr-meptyl, metribuzin and epoxiconazole. In this study investigated and optimized the impact of independent variables, such as extraction temperature, extraction time, fiber coating, incubation time, salt effect, sample volume, air evacuation time, pH, desorption time with the objective of achieving lower detection limits (ranging from 0.11 to 0.61 µg mL-1) and effective analyte responses. Moreover, in this work a comparison was made between classical solid phase microextraction and vacuum-assisted solid phase microextraction for the extraction of pesticides in grape samples under the same parameters. The results clearly demonstrated that the combination of Vac-HS-SPME proved to be more appropriate and selective for the extraction of pesticides from grape samples.

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葡萄样品中农药的真空辅助顶空固相微萃取
真空辅助顶空固相微萃取(Vac-HS-SPME)可作为从葡萄样品中萃取农药的替代方法。本研究采用 Vac-HS-SPME 方法同时分析了 6 种不同类别的农药,分别是啶虫脒、喹禾灵、氧乐果、氟虫腈、甲基立枯磷和环唑醇。本研究调查并优化了萃取温度、萃取时间、纤维涂层、培养时间、盐效应、样品体积、排空时间、pH 值、解吸时间等自变量的影响,目的是获得更低的检测限(0.11 至 0.61 µg mL-1)和有效的分析响应。此外,这项研究还比较了传统固相微萃取和真空辅助固相微萃取在相同参数下萃取葡萄样品中农药的效果。结果清楚地表明,Vac-HS-SPME 组合被证明更适合从葡萄样品中萃取农药,且选择性更强。
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