Efficient removal of antibiotics from wastewater by chitosan/polyethyleneimine/Ti3C2 MXene composite hydrogels: Synthesis, adsorption, kinetics and mechanisms

A novel chitosan-based composite hydrogel (CS/PEI-MXene) made of polyethyleneimine and Ti3C2 MXene as modifiers and acrolein as crosslinker has been synthesized simply and conveniently, which could be applied in the removal of residual antibiotic pharmaceuticals (chlortetracycline (CTC), ibuprofen (...

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Bibliographic Details
Published in:Colloids and surfaces. A, Physicochemical and engineering aspects Physicochemical and engineering aspects, 2024-12, Vol.702, p.135111, Article 135111
Main Authors: Li, Yan, Zhang, Han, Qu, Guo, Xie, Lingying, Tang, Sisi, Lei, Hang, Zhong, Yuxia, Zhang, Yue-Fei
Format: Article
Language:English
Subjects:
Adsorption
Chitosan
Hydrogel
Ti3C2
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Summary:A novel chitosan-based composite hydrogel (CS/PEI-MXene) made of polyethyleneimine and Ti3C2 MXene as modifiers and acrolein as crosslinker has been synthesized simply and conveniently, which could be applied in the removal of residual antibiotic pharmaceuticals (chlortetracycline (CTC), ibuprofen (IBU), etc.) from aqueous environments. The CS/PEI-MXene was used as an adsorbent for chlortetracycline and ibuprofen. The removal rates of CTC and IBU could be achieved to 91.1 % and 99.25 %, respectively. In addition, the reusability of CS/PEI-MXene for CTC and IBU appeared good capacity, and the removal rate was maintained at approximately 70 % after five cycles. FT-IR, XPS, and zeta potential were used to show that the hydrogel was successfully synthesized, and its physicochemical characteristics were studied. Systematically examined were conducted on the effects of pH (3−10), contact time (0–120 min), and temperature (30–40 °C) on the adsorption efficiency of CS/PEI-MXene. The adsorption mechanism of CS/PEI-MXene on CTC and IBU mainly included electrostatic interactions and hydrogen bonding. Overall, the development of MXene based hydrogel adsorbent will provide a practical approach to the treatment of wastewater containing antibiotic pharmaceuticals and have great potential for practical applications. [Display omitted] •A novel absorbent was studied to adsorb and recover pharmaceuticals from wastewater.•This material could adsorb and recover CTC and IBU with good stability and reusability.•The maximum adsorption capacities were 128.42 mg/g for CTC and 511.54 mg/g for IBU.•The removal rate of the adsorbent to CTC and IBU could be up to 91.1 % and 99.25 %.•A reasonable adsorption mechanism was proposed combined with MS calculations.
ISSN:0927-7757
DOI:10.1016/j.colsurfa.2024.135111