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Title: | Reduced Chitosan as a Strategy for Removing Copper Ions from Water | Authors: | Matias, Pedro M. C. Sousa, Joana F. M. Bernardino, Eva F. Vareda, João P. Durães, Luisa Abreu, Paulo E. Marques, Jorge M. C. Murtinho, Dina Maria B. Valente, Artur J. M. |
Keywords: | reduced chitosan; adsorption; copper ions; water purification | Issue Date: | 16-May-2023 | Publisher: | MDPI | Project: | This work was funded by the project “BIOSHELL”, Ref. BLUEBIO/0003/2019, financed by FCT within program ERA-NET Cofund on Blue Bioeconomy (BlueBio). The funding from the Coimbra Chemistry Centre, which is supported by the Fundação para a Ciência e a Tecnologia (FCT) through the programmes UID/QUI/00313/2020 and COMPETE, and PhD grants (UI/BD/150803/2020 and 2022.12425.BD) are also acknowledge. | Serial title, monograph or event: | Molecules | Volume: | 28 | Issue: | 10 | Abstract: | Toxic heavy metals are priority pollutants in wastewater, commonly present in dangerous concentrations in many places across the globe. Although in trace quantities copper is a heavy metal essential to human life, in excess it causes various diseases, whereby its removal from wastewater is a necessity. Among several reported materials, chitosan is a highly abundant, non-toxic, low-cost, biodegradable polymer, comprising free hydroxyl and amino groups, that has been directly applied as an adsorbent or chemically modified to increase its performance. Taking this into account, reduced chitosan derivatives (RCDs 1-4) were synthesised by chitosan modification with salicylaldehyde, followed by imine reduction, characterised by RMN, FTIR-ATR, TGA and SEM, and used to adsorb Cu(II) from water. A reduced chitosan (RCD3), with a moderate modification percentage (43%) and a high imine reduction percentage (98%), proved to be more efficient than the remainder RCDs and even chitosan, especially at low concentrations under the best adsorption conditions (pH 4, RS/L = 2.5 mg mL-1). RCD3 adsorption data were better described by the Langmuir-Freundlich isotherm and the pseudo-second-order kinetic models. The interaction mechanism was assessed by molecular dynamics simulations, showing that RCDs favour Cu(II) capture from water compared to chitosan, due to a greater Cu(II) interaction with the oxygen of the glucosamine ring and the neighbouring hydroxyl groups. | URI: | https://hdl.handle.net/10316/113318 | ISSN: | 1420-3049 | DOI: | 10.3390/molecules28104110 | Rights: | openAccess |
Appears in Collections: | I&D CERES - Artigos em Revistas Internacionais I&D CQC - Artigos em Revistas Internacionais |
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