Polyethylenimine-functionalized mesoporous silica-chitosan composites and their ability to adsorb Pb(ii)

There is an urgent need to reduce heavy metal contamination of the environment because the ions can accumulate in living organisms, yet the lack of highly efficient and cost-effective treatment methods remains. In this study, polyethylenimine (PEI)-functionalized mesoporous silica-chitosan composites were synthesized via a microwave-assisted method, and it was applied for the removal of Pb(ii). Inexpensive sodium silicate and chitosan were chosen as precursors to construct a basic mesoporous silica-chitosan skeleton. Epichlorohydrin (ECH) was used to further cross-link PEI molecules onto the porous substrate. PEI played a critical role in the adsorption of Pb(ii) and was beneficial because its multiple N atoms coordinated with the metal ions. The adsorbent CK-T-50/t(20)-m(0.2) exhibited the strongest adsorption performance, of which the capacity for Pb(ii) reached 279.08 mg g(-1). After six adsorption-desorption cycles, the capacity was preserved at 94.7%, and the regeneration rate reached 93%, demonstrating its satisfactory stability and cyclic performance. The effect of pH, adsorption kinetics, adsorption isotherms, and thermodynamics of the process were also studied. The adsorbent is a promising material for use in practical applications of heavy metal removal.

Automated summary

There is an urgent need to address the heavy metal contamination in the environment. This study successfully synthesized polyethylenimine-functionalized mesoporous silica-chitosan composites, which showed strong adsorption performance for Pb(ii) removal. The adsorbent demonstrated promising stability and cyclic performance, making it suitable for practical applications in heavy metal removal.