AI Article Synopsis
- A new adsorbent, PVA-TA-βCD, was created by thermally linking polyvinyl alcohol with β-cyclodextrin and characterized using various methods like SEM-EDS and FTIR.
- The study explored how factors like pH, contact time, and temperature impacted the adsorption of heavy metals Pb(II), Cd(II), and Mn(II) on the adsorbent, finding that lead had the highest adsorption capacity and the process followed pseudo-second-order kinetics.
- The findings indicated that while competition existed between the metals in mixed solutions, the adsorbent had a stronger attraction for Pb(II), and it maintained good reusability in regeneration tests.
Article Abstract
In this study, the novel adsorbent PVA-TA-βCD was synthesized via thermal cross-linking between polyvinyl alcohol and β-cyclodextrin. The characterization methods SEM-EDS, FTIR, and XPS were adopted to characterize the adsorbent. The effect of pH, contact time, initial concentrations, and temperature during the adsorption of Pb(II), Cd(II), and Mn(II) onto the PVA-TA-βCD was also investigated. In a single-component system, the data fitted well to pseudo-second-order, and film diffusion and intra-particle diffusion both played important roles in the adsorption process. As for isotherm study, it showed a heterogeneous adsorption capacity of 199.11, 116.52, and 90.28 mg g for the Pb(II), Cd(II), and Mn(II), respectively. Competition between the ions existed in a multi-component system; however, owing to the stronger affinity of the PVA-TA-βCD for Pb(II) relative to Cd(II) and Mn(II), the Pb(II) adsorption onto the PVA-TA-βCD was less affected by the addition of the other metals, which could be effectively explained by the hard and soft acid and base theory (HSAB). Furthermore, PVA-TA-βCD showed good reusability throughout regeneration experiments.
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