Halloysite nanotubes-titanium dioxide as a solid-phase microextraction coating combined with negative corona discharge-ion mobility spectrometry for the determination of parathion |
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Authors: | Mohammad Saraji Mohammad Taghi JafariMehdi Mossaddegh |
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Affiliation: | Department of Chemistry, Isfahan University of Technology, Isfahan 84156–83111, Iran |
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Abstract: | Halloysite nanotubes-titanium dioxide (HNTs-TiO2) as a biocompatible environmentally friendly solid-phase microextraction (SPME) fiber coating was prepared. HNTs-TiO2 was chemically coated on the surface of a fused-silica fiber using a sol–gel process. Parathion as an organophosphorus pesticide was selected as a model compound to investigate the extraction efficiency of the fiber. The extracted analyte was detected by negative corona discharge-ion mobility spectrometer (NCD-IMS). The effective parameters on the extraction efficiency, such as salt effect, extraction temperature and extraction time were investigated and optimized. The extraction efficiency of HNTs-TiO2 fiber was compared with bare-silica (sol–gel based coating without HNTs-TiO2), HNTs, carbon nanotubes and commercial SPME fibers (PA, PDMS, and PDMS–DVB). The HNTs-TiO2 fiber showed highest extraction efficiency among the studied fibers. The intra- and inter-day relative standard deviations were found to be 4.3 and 6.3%, respectively. The limit of detection and limit of quantification values were 0.03 and 0.1 μg L−1, respectively. The dynamic range of the method was in the range of 0.1–25 μg L−1. The spiking recoveries were between 85 (±9) and 97 (±6). The SPME–HNTs-TiO2 combined with NCD–IMS was successfully applied for the determination of parathion in apple, strawberry, celery and water samples. |
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Keywords: | Halloysite nanotubes-titanium dioxide Solid-phase microextraction Negative corona discharge-ion mobility spectrometry Parathion Water Fruit and vegetable samples |
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