Synthesis and post-polymerization functionalization of a tosylated hyper-crosslinked polymer for fast and efficient removal of organic pollutants in water

Synthesis and post-polymerization functionalization of a tosylated hyper-crosslinked polymer for fast and efficient removal of organic pollutants in water

The synthesis and post-synthetic modification of a novel tosylate-functionalized hyper-crosslinked polymer (HCP) for the purpose of water remediation are reported. An FeCl3-catalyzed cross-linking reaction of a bis-tosylated arene monomer (M-OTs) gave a tosylate-substituted HCP precursor (P-OTs) in...

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Main Author: Todee B.
Other Authors: Mahidol University
Format: Article
Published: 2023
Subjects:
Materials Science
Online Access:https://repository.li.mahidol.ac.th/handle/123456789/87628
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spelling th-mahidol.876282023-06-27T00:42:21Z Synthesis and post-polymerization functionalization of a tosylated hyper-crosslinked polymer for fast and efficient removal of organic pollutants in water Todee B. Mahidol University Materials Science The synthesis and post-synthetic modification of a novel tosylate-functionalized hyper-crosslinked polymer (HCP) for the purpose of water remediation are reported. An FeCl3-catalyzed cross-linking reaction of a bis-tosylated arene monomer (M-OTs) gave a tosylate-substituted HCP precursor (P-OTs) in high yield. In contrast to halogenated monomers, the tosylate functional groups in M-OTs are inert under such polymerization conditions, allowing for facile chemical modification of P-OTsvia SN2, reduction, and oxidation reactions to afford a series of HCPs containing thioacetate (P-SAc), thiol (P-SH), and sulfonic acid (P-SO3H) functional groups. Characterized using a suite of techniques including FT-IR, elemental analysis, TGA, SEM, and BET, the sulfur-containing HCP series were investigated as organic pollutant extractant materials for contaminated water streams. Wherein it was demonstrated that the HCP series exhibited highly selective adsorption towards cationic species in aqueous solution operating in a considerable pH window and artificial sea and fresh water. Importantly, by virtue of strong electrostatic interactions, P-SO3H outperformed other HCPs in rapid and efficient methylene blue (MB) and paraquat (PQ) adsorption with impressive adsorption capacities (qmax) of 582.60 mg g−1 and 568.13 mg g−1, respectively. 2023-06-26T17:42:21Z 2023-06-26T17:42:21Z 2022-08-18 Article Materials Chemistry Frontiers Vol.6 No.20 (2022) , 3023-3032 10.1039/d2qm00633b 20521537 2-s2.0-85138654984 https://repository.li.mahidol.ac.th/handle/123456789/87628 SCOPUS
institution Mahidol University
building Mahidol University Library
continent Asia
country Thailand
Thailand
content_provider Mahidol University Library
collection Mahidol University Institutional Repository
topic Materials Science
spellingShingle Materials Science
Todee B.
Synthesis and post-polymerization functionalization of a tosylated hyper-crosslinked polymer for fast and efficient removal of organic pollutants in water
description The synthesis and post-synthetic modification of a novel tosylate-functionalized hyper-crosslinked polymer (HCP) for the purpose of water remediation are reported. An FeCl3-catalyzed cross-linking reaction of a bis-tosylated arene monomer (M-OTs) gave a tosylate-substituted HCP precursor (P-OTs) in high yield. In contrast to halogenated monomers, the tosylate functional groups in M-OTs are inert under such polymerization conditions, allowing for facile chemical modification of P-OTsvia SN2, reduction, and oxidation reactions to afford a series of HCPs containing thioacetate (P-SAc), thiol (P-SH), and sulfonic acid (P-SO3H) functional groups. Characterized using a suite of techniques including FT-IR, elemental analysis, TGA, SEM, and BET, the sulfur-containing HCP series were investigated as organic pollutant extractant materials for contaminated water streams. Wherein it was demonstrated that the HCP series exhibited highly selective adsorption towards cationic species in aqueous solution operating in a considerable pH window and artificial sea and fresh water. Importantly, by virtue of strong electrostatic interactions, P-SO3H outperformed other HCPs in rapid and efficient methylene blue (MB) and paraquat (PQ) adsorption with impressive adsorption capacities (qmax) of 582.60 mg g−1 and 568.13 mg g−1, respectively.
author2 Mahidol University
author_facet Mahidol University
Todee B.
format Article
author Todee B.
author_sort Todee B.
title Synthesis and post-polymerization functionalization of a tosylated hyper-crosslinked polymer for fast and efficient removal of organic pollutants in water
title_short Synthesis and post-polymerization functionalization of a tosylated hyper-crosslinked polymer for fast and efficient removal of organic pollutants in water
title_full Synthesis and post-polymerization functionalization of a tosylated hyper-crosslinked polymer for fast and efficient removal of organic pollutants in water
title_fullStr Synthesis and post-polymerization functionalization of a tosylated hyper-crosslinked polymer for fast and efficient removal of organic pollutants in water
title_full_unstemmed Synthesis and post-polymerization functionalization of a tosylated hyper-crosslinked polymer for fast and efficient removal of organic pollutants in water
title_sort synthesis and post-polymerization functionalization of a tosylated hyper-crosslinked polymer for fast and efficient removal of organic pollutants in water
publishDate 2023
url https://repository.li.mahidol.ac.th/handle/123456789/87628
_version_ 1781416683775197184

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