Nanometals-Containing Polymeric Membranes for Purification Processes

Nanometals-Containing Polymeric Membranes for Purification Processes

A recent trend in the field of membrane research is the incorporation of nanoparticles into polymeric membranes, which could produce synergistic effects when using different types of materials. This paper discusses the effect of the introduction of different nanometals such as silver, iron, silica,...

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Main Authors: Anna Rabajczyk, Maria Zielecka, Krzysztof Cygańczuk, Łukasz Pastuszka, Leszek Jurecki
Format: Article
Language:English
Published: MDPI AG 2021-01-01
Series:Materials
Subjects:
nanoparticles of metals
polymeric membranes
modification
removal of impurities
aqueous solutions
Online Access:https://www.mdpi.com/1996-1944/14/3/513
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spelling doaj-38a21cc7ae154533b7c11dd6e926ce652021-01-22T00:06:13ZengMDPI AGMaterials1996-19442021-01-011451351310.3390/ma14030513Nanometals-Containing Polymeric Membranes for Purification ProcessesAnna Rabajczyk0Maria Zielecka1Krzysztof Cygańczuk2Łukasz Pastuszka3Leszek Jurecki4Scientific and Research Center for Fire Protection National Research Institute, Nadwiślańska 213, 05-420 Józefów, PolandScientific and Research Center for Fire Protection National Research Institute, Nadwiślańska 213, 05-420 Józefów, PolandScientific and Research Center for Fire Protection National Research Institute, Nadwiślańska 213, 05-420 Józefów, PolandScientific and Research Center for Fire Protection National Research Institute, Nadwiślańska 213, 05-420 Józefów, PolandScientific and Research Center for Fire Protection National Research Institute, Nadwiślańska 213, 05-420 Józefów, PolandA recent trend in the field of membrane research is the incorporation of nanoparticles into polymeric membranes, which could produce synergistic effects when using different types of materials. This paper discusses the effect of the introduction of different nanometals such as silver, iron, silica, aluminum, titanium, zinc, and copper and their oxides on the permeability, selectivity, hydrophilicity, conductivity, mechanical strength, thermal stability, and antiviral and antibacterial properties of polymeric membranes. The effects of nanoparticle physicochemical properties, type, size, and concentration on a membrane’s intrinsic properties such as pore morphology, porosity, pore size, hydrophilicity/hydrophobicity, membrane surface charge, and roughness are discussed, and the performance of nanocomposite membranes in terms of flux permeation, contaminant rejection, and antifouling capability are reviewed. The wide range of nanocomposite membrane applications including desalination and removal of various contaminants in water-treatment processes are discussed.https://www.mdpi.com/1996-1944/14/3/513nanoparticles of metalspolymeric membranesmodificationremoval of impuritiesaqueous solutions
collection DOAJ
language English
format Article
sources DOAJ
author Anna Rabajczyk
Maria Zielecka
Krzysztof Cygańczuk
Łukasz Pastuszka
Leszek Jurecki
spellingShingle Anna Rabajczyk
Maria Zielecka
Krzysztof Cygańczuk
Łukasz Pastuszka
Leszek Jurecki
Nanometals-Containing Polymeric Membranes for Purification Processes
Materials
nanoparticles of metals
polymeric membranes
modification
removal of impurities
aqueous solutions
author_facet Anna Rabajczyk
Maria Zielecka
Krzysztof Cygańczuk
Łukasz Pastuszka
Leszek Jurecki
author_sort Anna Rabajczyk
title Nanometals-Containing Polymeric Membranes for Purification Processes
title_short Nanometals-Containing Polymeric Membranes for Purification Processes
title_full Nanometals-Containing Polymeric Membranes for Purification Processes
title_fullStr Nanometals-Containing Polymeric Membranes for Purification Processes
title_full_unstemmed Nanometals-Containing Polymeric Membranes for Purification Processes
title_sort nanometals-containing polymeric membranes for purification processes
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2021-01-01
description A recent trend in the field of membrane research is the incorporation of nanoparticles into polymeric membranes, which could produce synergistic effects when using different types of materials. This paper discusses the effect of the introduction of different nanometals such as silver, iron, silica, aluminum, titanium, zinc, and copper and their oxides on the permeability, selectivity, hydrophilicity, conductivity, mechanical strength, thermal stability, and antiviral and antibacterial properties of polymeric membranes. The effects of nanoparticle physicochemical properties, type, size, and concentration on a membrane’s intrinsic properties such as pore morphology, porosity, pore size, hydrophilicity/hydrophobicity, membrane surface charge, and roughness are discussed, and the performance of nanocomposite membranes in terms of flux permeation, contaminant rejection, and antifouling capability are reviewed. The wide range of nanocomposite membrane applications including desalination and removal of various contaminants in water-treatment processes are discussed.
topic nanoparticles of metals
polymeric membranes
modification
removal of impurities
aqueous solutions
url https://www.mdpi.com/1996-1944/14/3/513
work_keys_str_mv AT annarabajczyk nanometalscontainingpolymericmembranesforpurificationprocesses
AT mariazielecka nanometalscontainingpolymericmembranesforpurificationprocesses
AT krzysztofcyganczuk nanometalscontainingpolymericmembranesforpurificationprocesses
AT łukaszpastuszka nanometalscontainingpolymericmembranesforpurificationprocesses
AT leszekjurecki nanometalscontainingpolymericmembranesforpurificationprocesses
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