Abstract
Fabricating suitable adsorbents with low-cost and high efficiency extraction for measurement of very small amounts of agricultural pesticides in food and water is playing a vital key role in personal and environmental health. Here, a new composite of zeolitic imidazolate framework-67@magnesium aluminate spinel (ZIF-67@MgAl2O4) has been fabricated by a simple method at room temperature with different weight ratios. Several techniques such as FE-SEM, BET, XRD, and TGA have been used to confirm the structural characterization of the obtained materials. The obtained ZIF-67@MgAl2O4 was utilized as an adsorbent in the solid phase microextraction technique to extract and preconcentrate the herbicide molinate (as an analyte) in aqueous solution. Corona discharge ionization-ion mobility spectrometry (CD-IMS) was applied for quantification of the analyte molecules. Extraction temperature, extraction time, stirring rate, and sample pH as the main parameters that affected the extraction proficiency were chosen and considered. Under optimal conditions, the linear dynamic range (LDR) of the various concentrations of the molinate and correlation coefficient were 10.0–100.0 μg L−1 and 0.9961, respectively. The limit of quantification (LOQ) and method detection limit (MDL) were 10.0 μg L−1 and 3.0 μg L−1, respectively. The relative standard deviation (RSD) of the ZIF-67@MgAl2O4 for extracting the molinate molecules (molinate concentration; 50 μg L−1) was calculated to be 4% and the enrichment factor (EF) was ∼5.
Highlights
Pesticide contamination is one of the signi cant global issues that humans grapple with
Two crystalline phases of Zeolitic imidazolate frameworks (ZIFs)-67 and MgAl2O4 are illustrated in the ZIF-67@MgAl2O4 nanocomposite
The patterns indicated that, with increasing the weight ratios of each of the precursors, the crystalline phase has been improved in the obtained ZIF-67@MgAl2O4 nanocomposite
Summary
Pesticide contamination is one of the signi cant global issues that humans grapple with. Extraction and measurement of agricultural pesticides by instrumental methods in food and water plays a key role in personal health and prevention of environmental problems.[1,2] In 1970, ion mobility spectrometry (IMS) was rst invented by Karasek and Cohen.[3] The IMS technique was rapidly developed due to its advantages including high sensitivity, rapidity, and simplicity as a spectroscopy technique. The production of ions in the gas phase and the mobility of these ions in a weak electric eld is the base mechanism of the IMS system This technique is widely used for identi cation of various compounds, such as explosive materials, chemical gases, poisonous materials (herbicide, pesticide, and insecticide), and abuse and clinical drugs.[4]
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