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چکیده
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In this research study, a novel nanocomposite composed of aminopropyl-based hybrid inorganic–organic sol–gel@Ni foam (AP-HIO/SG-NC @ Ni foam) was synthesized and then applied in a new development of solid phase extraction technique called the “swimming petal shape sorbent-based solid phase extraction” (SPSS-SPE) for simultaneous separation and pre�concentration of lead, cadmium, cobalt, and nickel metals ions from aqueous solutions. During the analytical process, the essential parameters such as pH, size of the petal-shaped sorbent, swimming time, desorption conditions, sample volume, and ionic strength on the extraction efficiencies of the target analytes were investigated. Under optimal experimental con�ditions, the linear ranges (LR) of 0.5–1000 (µg L−1) for lead and 1–1000 (µg L−1) for nickel, cadmium, cobalt in water, the LR of 1–1000 (µg L−1) were obtained for analytes in soli, and the LR of 1–1000 (µg L−1) for lead and cadmium and 1–1250 (µg L−1) for nickel and cobalt were achieved in blood sample. Moreover, the LOD values (S/N=3) of 0.182–0.314 (µg L−1), 0.292–0.314 (µg L−1), 0.295–0.313 (µg L−1) were obtained for water, soil, and blood for analytes respectively. The procedure's intra-day and inter-day precision (%) were less than≤2.5 and≤3.2, respectively. The sensitive and high�potential AP-HIO/SG-NC @ Ni foam-SPSS-SPE was successfully applied to analyze water, soil, and blood samples. The analytical greenness metric approach was also applied to evaluate the greenness of the proposed method, AGREE.
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