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Abstract
A novel chelating adsorbent based on (3-iminodiacetic acid) propyltriethoxysilane graphene oxide (IAT-GO) has been developed, showing exceptional promise for capturing lead. IAT-GO is made by combining a high-surface-area graphene oxide with a specially designed chelating ligand, which can selectively and efficiently remove lead. The synthesis of IAT-GO involves a two-step progression. In the first step, covalent bonds form between graphene oxide and (3-aminopropyl)-triethoxysilane (AT) through hydrolysis, condensation, and epoxide ring opening reactions. In the second step, nucleophilic substitution reactions occur between the primary amines and chloroacetic acid (CAA). A comprehensive suite of characterization techniques, including XPS, UV–Vis, XRD, Raman, FTIR, TEM, and SEM, provides detailed insights into the IAT-GO adsorbent's chemical composition and physical form, elucidating its intricate structure and morphology. Optimizing the experimental conditions for using the adsorbent material to remove Pb(II) ions from contaminated water revealed a maximum adsorption capacity of 124.0 mg/g at pH 5 and 30 min. The IAT-GO displays high selectivity for Pb(II) in a mixture of six metal ions containing 100 ppm of each one. Moreover, the IAT-GO shows 100% removal of Pb(II) for concentrations lower than 50 ppm. The excellent fit of the experimental data with the Langmuir adsorption isotherm and pseudo-second-order kinetic models (R2 > 99%) indicates that Pb(II) ion uptake onto the IAT-GO surface occurs via the monolayer formation of mercury ions. IAT-GO demonstrates exceptional potential as an innovative adsorbent for lead-contaminated water. Nitric acid (0.4 M) effectively regenerates the material, while its reusability remains impressive even after five cycles (> 97% removal efficiency). Therefore, this study highlights the development of a groundbreaking material, IAT-GO, with exceptional potential for remediating lead-contaminated water. Its high efficiency, selectivity, reusability, and cost-effectiveness make it a promising candidate for real-world applications.
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Details
1 Jazan University, Department of Chemistry, Faculty of Science, Jazan, Saudi Arabia (GRID:grid.411831.e) (ISNI:0000 0004 0398 1027)
2 Mansoura University, Chemistry Department, Faculty of Science, Mansoura, Egypt (GRID:grid.10251.37) (ISNI:0000 0001 0342 6662)
3 Delta University for Science and Technology, Basic Science Department, Faculty of Engineering, Gamasa, Egypt (GRID:grid.442736.0) (ISNI:0000 0004 6073 9114)
4 University of Hail, Department of Pharmaceutical Chemistry, College of Pharmacy, Hail, Saudi Arabia (GRID:grid.443320.2) (ISNI:0000 0004 0608 0056)
5 Virginia Commonwealth University, Department of Chemistry, Richmond, USA (GRID:grid.224260.0) (ISNI:0000 0004 0458 8737)
6 Mansoura University, Chemistry Department, Faculty of Science, Mansoura, Egypt (GRID:grid.10251.37) (ISNI:0000 0001 0342 6662); New Mansoura University, Chemistry Department, Faculty of Science, New Mansoura City, Egypt (GRID:grid.10251.37) (ISNI:0000 0005 0814 6423)