Natural and recycled materials for sustainable membrane modification: Recent trends and prospects

Despite water being critical for human survival, its uneven distribution, and exposure to countless sources of pollution make water shortages increasingly urgent. Membrane technology offers an efficient solution for alleviating the water shortage impact. The selectivity and permeability of membranes...

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Veröffentlicht in:	The Science of the total environment 2022-09, Vol.838 (Pt 1), p.156014-156014, Article 156014
Hauptverfasser:	al-Shaeli, Muayad, Al-Juboori, Raed A., Al Aani, Saif, Ladewig, Bradley P., Hilal, Nidal
Format:	Artikel
Sprache:	eng
Schlagworte:	aquaporins asymmetric membranes biochar economic feasibility environment fly ash gum arabic humans industry lignin Membrane modification nanocomposites Natural additives permeability Plastic waste pollution polyethylene terephthalates polystyrenes Recycled additives Selectivity Sustainability water reuse water shortages water treatment zeolites
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container_issue	Pt 1
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container_title	The Science of the total environment
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creator	al-Shaeli, Muayad Al-Juboori, Raed A. Al Aani, Saif Ladewig, Bradley P. Hilal, Nidal
description	Despite water being critical for human survival, its uneven distribution, and exposure to countless sources of pollution make water shortages increasingly urgent. Membrane technology offers an efficient solution for alleviating the water shortage impact. The selectivity and permeability of membranes can be improved by incorporating additives of different nature and size scales. However, with the vast debate about the environmental and economic feasibility of the common nanoscale materials in water treatment applications, we can infer that there is a long way before the first industrial nanocomposite membrane is commercialized. This stumbling block has motivated the scientific community to search for alternative modification routes and/or materials with sustainable features. Herein, we present a pragmatic review merging the concept of sustainability, nanotechnology, and membrane technology through the application of natural additives (e.g., Clays, Arabic Gum, zeolite, lignin, Aquaporin), recycled additives (e.g., Biochar, fly ash), and recycled waste (e.g., Polyethylene Terephthalate, recycled polystyrene) for polymeric membrane synthesis and modification. Imparted features on polymeric membranes, induced by the presence of sustainable natural and waste-based materials, are scrutinized. In addition, the strategies harnessed to eliminate the hurdles associated with the application of these nano and micro size additives for composite membranes modification are elaborated. The expanding research efforts devoted recently to membrane sustainability and the prospects for these materials are discussed. The findings of the investigations reported in this work indicate that the application of natural and waste-based additives for composite membrane fabrication/modification is a nascent research area that deserves the attention of both research and industry. [Display omitted] •Membrane modification with natural & recycled materials have been minutely reviewed.•Harnessing recycled plastic for membrane synthesis has been discussed.•Natural & recycled materials induce same improvements as common nanomaterials.•Natural & recycled materials are cost-effective and environmentally friendly.•Functional groups are important for membrane-fillers interactions.
doi_str_mv	10.1016/j.scitotenv.2022.156014
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Membrane technology offers an efficient solution for alleviating the water shortage impact. The selectivity and permeability of membranes can be improved by incorporating additives of different nature and size scales. However, with the vast debate about the environmental and economic feasibility of the common nanoscale materials in water treatment applications, we can infer that there is a long way before the first industrial nanocomposite membrane is commercialized. This stumbling block has motivated the scientific community to search for alternative modification routes and/or materials with sustainable features. Herein, we present a pragmatic review merging the concept of sustainability, nanotechnology, and membrane technology through the application of natural additives (e.g., Clays, Arabic Gum, zeolite, lignin, Aquaporin), recycled additives (e.g., Biochar, fly ash), and recycled waste (e.g., Polyethylene Terephthalate, recycled polystyrene) for polymeric membrane synthesis and modification. Imparted features on polymeric membranes, induced by the presence of sustainable natural and waste-based materials, are scrutinized. In addition, the strategies harnessed to eliminate the hurdles associated with the application of these nano and micro size additives for composite membranes modification are elaborated. The expanding research efforts devoted recently to membrane sustainability and the prospects for these materials are discussed. The findings of the investigations reported in this work indicate that the application of natural and waste-based additives for composite membrane fabrication/modification is a nascent research area that deserves the attention of both research and industry. [Display omitted] •Membrane modification with natural & recycled materials have been minutely reviewed.•Harnessing recycled plastic for membrane synthesis has been discussed.•Natural & recycled materials induce same improvements as common nanomaterials.•Natural & recycled materials are cost-effective and environmentally friendly.•Functional groups are important for membrane-fillers interactions.</description><identifier>ISSN: 0048-9697</identifier><identifier>EISSN: 1879-1026</identifier><identifier>DOI: 10.1016/j.scitotenv.2022.156014</identifier><identifier>PMID: 35584751</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>aquaporins ; asymmetric membranes ; biochar ; economic feasibility ; environment ; fly ash ; gum arabic ; humans ; industry ; lignin ; Membrane modification ; nanocomposites ; Natural additives ; permeability ; Plastic waste ; pollution ; polyethylene terephthalates ; polystyrenes ; Recycled additives ; Selectivity ; Sustainability ; water reuse ; water shortages ; water treatment ; zeolites</subject><ispartof>The Science of the total environment, 2022-09, Vol.838 (Pt 1), p.156014-156014, Article 156014</ispartof><rights>2022 The Author(s)</rights><rights>Copyright © 2022 The Authors. 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Membrane technology offers an efficient solution for alleviating the water shortage impact. The selectivity and permeability of membranes can be improved by incorporating additives of different nature and size scales. However, with the vast debate about the environmental and economic feasibility of the common nanoscale materials in water treatment applications, we can infer that there is a long way before the first industrial nanocomposite membrane is commercialized. This stumbling block has motivated the scientific community to search for alternative modification routes and/or materials with sustainable features. Herein, we present a pragmatic review merging the concept of sustainability, nanotechnology, and membrane technology through the application of natural additives (e.g., Clays, Arabic Gum, zeolite, lignin, Aquaporin), recycled additives (e.g., Biochar, fly ash), and recycled waste (e.g., Polyethylene Terephthalate, recycled polystyrene) for polymeric membrane synthesis and modification. Imparted features on polymeric membranes, induced by the presence of sustainable natural and waste-based materials, are scrutinized. In addition, the strategies harnessed to eliminate the hurdles associated with the application of these nano and micro size additives for composite membranes modification are elaborated. The expanding research efforts devoted recently to membrane sustainability and the prospects for these materials are discussed. The findings of the investigations reported in this work indicate that the application of natural and waste-based additives for composite membrane fabrication/modification is a nascent research area that deserves the attention of both research and industry. [Display omitted] •Membrane modification with natural & recycled materials have been minutely reviewed.•Harnessing recycled plastic for membrane synthesis has been discussed.•Natural & recycled materials induce same improvements as common nanomaterials.•Natural & recycled materials are cost-effective and environmentally friendly.•Functional groups are important for membrane-fillers interactions.</description><subject>aquaporins</subject><subject>asymmetric membranes</subject><subject>biochar</subject><subject>economic feasibility</subject><subject>environment</subject><subject>fly ash</subject><subject>gum arabic</subject><subject>humans</subject><subject>industry</subject><subject>lignin</subject><subject>Membrane modification</subject><subject>nanocomposites</subject><subject>Natural additives</subject><subject>permeability</subject><subject>Plastic waste</subject><subject>pollution</subject><subject>polyethylene terephthalates</subject><subject>polystyrenes</subject><subject>Recycled additives</subject><subject>Selectivity</subject><subject>Sustainability</subject><subject>water reuse</subject><subject>water shortages</subject><subject>water treatment</subject><subject>zeolites</subject><issn>0048-9697</issn><issn>1879-1026</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><recordid>eNqNkctu3DAMRYWiRTNJ-wuJl9l4KsrWw9kFQR8BBi1QtGtBpmhAAz8mkhwgf19NJ8025UZcHN5L8TJ2BXwLHNSn_TZhyEum-XEruBBbkIpD-4ZtwOiuBi7UW7bhvDV1pzp9xs5T2vNS2sB7dtZIaVotYcPcd5fX6MbKzb6KhE84kq8mlykGN6ZqWGKV1pRdmF0_UjXR1Ec3l2bxYQjocljmm-onIc25ypFmn_5qHeKSDoQ5fWDvhqJEH5_fC_b7y-dfd9_q3Y-v93e3uxpb2eS6awiN9sY04KVoyGNH0klDToKQiBoG6UhqRFCy750S1ElSjdLSC4e-uWDXJ93i_LBSynYKCWkcy7bLmqwopDRgBP8PVKkOuIK2oPqEYvlPijTYQwyTi08WuD1GYff2JQp7jMKeoiiTl88maz-Rf5n7d_sC3J4AKld5DBSPQjQj-VCCyNYv4VWTP1yxoGc</recordid><startdate>20220910</startdate><enddate>20220910</enddate><creator>al-Shaeli, Muayad</creator><creator>Al-Juboori, Raed A.</creator><creator>Al Aani, Saif</creator><creator>Ladewig, Bradley P.</creator><creator>Hilal, Nidal</creator><general>Elsevier B.V</general><scope>6I.</scope><scope>AAFTH</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>7S9</scope><scope>L.6</scope></search><sort><creationdate>20220910</creationdate><title>Natural and recycled materials for sustainable membrane modification: Recent trends and prospects</title><author>al-Shaeli, Muayad ; 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subjects	aquaporins asymmetric membranes biochar economic feasibility environment fly ash gum arabic humans industry lignin Membrane modification nanocomposites Natural additives permeability Plastic waste pollution polyethylene terephthalates polystyrenes Recycled additives Selectivity Sustainability water reuse water shortages water treatment zeolites
title	Natural and recycled materials for sustainable membrane modification: Recent trends and prospects
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