A Mini-Review on Anion Exchange and Chelating Polymers for Applications in Hydrometallurgy, Environmental Protection, and Biomedicine

The rapidly increasing demand for technologies aiming to resolve challenges of separations and environmental protection causes a sharp increase in the demand for ion exchange (IX) and chelating polymers. These unique materials can offer target-selective adsorption properties vital for the removal or...

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Veröffentlicht in:	Polymers 2020-04, Vol.12 (4), p.784
Hauptverfasser:	Cyganowski, Piotr, Dzimitrowicz, Anna
Format:	Artikel
Sprache:	eng
Schlagworte:	Anion exchanging Chelating resins Chelation Energy consumption Environmental protection Heat Heat exchange Hydrometallurgy Ion exchange Materials selection Physiochemistry Polymerization Resins Review Selective adsorption
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creator	Cyganowski, Piotr Dzimitrowicz, Anna
description	The rapidly increasing demand for technologies aiming to resolve challenges of separations and environmental protection causes a sharp increase in the demand for ion exchange (IX) and chelating polymers. These unique materials can offer target-selective adsorption properties vital for the removal or recovery of harmful and precious materials, where trace concentrations thereof make other techniques insufficient. Hence, recent achievements in syntheses of IX and chelating resins designed and developed in our research group are discussed within this mini-review. The aim of the present work is to reveal that, due to the diversified and unique physiochemical characteristics of the proposed materials, they are not limited to traditional separation techniques and could be used in multifunctional areas of applications, including catalysis, heat management, and biomedicine.
doi_str_mv	10.3390/polym12040784
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subjects	Anion exchanging Chelating resins Chelation Energy consumption Environmental protection Heat Heat exchange Hydrometallurgy Ion exchange Materials selection Physiochemistry Polymerization Resins Review Selective adsorption
title	A Mini-Review on Anion Exchange and Chelating Polymers for Applications in Hydrometallurgy, Environmental Protection, and Biomedicine
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