Development of a simple and fast method named solvent‐assisted dispersive solid phase extraction for trace detection of triazole fungicides in water, fruit, vegetable, and agricultural soil samples

Abstract

Solvent‐assisted dispersive solid‐phase extraction (SA‐DSPE) approach was developed to measure triazole fungicides (TFs). In the SA‐DSPE technique, the addition of 1000 μL of ethanol as a disperser solvent, along with a small quantity of benzil as a sorbent to the sample solution, led to a cloudy solution. After completion of the extraction, the mixture was subjected to centrifugation to isolate benzil. Next, benzil was dissolved in ethanol, and the resulting solution was subsequently analyzed by a gas chromatography‐flame ionization detector. This method demonstrated high linearity (R2 > 0.9963) and repeatability (relative standard deviation % < 4.3) for the quantification of TFs under the optimal conditions (sorbent: benzil, amount of benzil: 2% w/v, pH of solution: 7.0, disperser solvent: ethanol, volumes of ethanol: 1000 μL, centrifuge time: 3 min, extraction temperature: 25°C, and ionic strength: without salt addition). The proposed SA‐DSPE yielded detection limits, quantification limits, and preconcentration factors within the ranges of 0.3–0.9 ng/mL, 1.0–3.0 ng/mL, and 419–426, respectively. Finally, the validated method was employed to determine TFs in a diverse range of real samples, encompassing waters, fruits, vegetables, and agricultural soils, with relative recoveries ranging from 93.0% to 104%.