Abstract
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A new creatinine molecular imprinted polymer on the surface of goethite nanorods (CMIPG) was synthesized using the core-shell structure for the absorption and identifcation of creatinine. Nano goethite particles (NG) that had been modifed with fumaric acid were employed as a core, and a polymerization procedure was carried out in the methacrylic acid (MAA) presence as a functional monomer and creatinine as a template on the surface of the modifed goethite nanorods (MGN). Characterization of the CMIPG by energy dispersive spectroscopy-coupled scanning electron microscopy (SEM-EDS), feld emission scanning electron microscopy (FESEM), Fourier transform infrared (FT-IR), and thermal gravimetric analysis (TGA) showed that the polymerization was successful. The effect of different factors such as pH, contact time, the amount of the adsorbent, imprinting efciency, and primary creatinine concentration on creatinine adsorption capacity of CMIPG were evaluated and the results showed that recognition sites were created on the nanoparticles’ surface through the polymerization process. The ability of CMIPG for selective identifcation was studied by the binary solution of creatinine and its analogous such as creatine, L-tyrosine, and N-hydroxysuccinimide (NHS) revealing its ability to selectively absorb creatinine. Moreover, the CMIPG's release and reusability, isotherm, and kinetic models were examined
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