Environmentally benign non-wettable textile treatments: A review of recent state-of-the-art

Among superhydrophobic materials, non-wettable textiles are probably the ones that come in contact or interact with the human body most frequently. Hence, textile treatments for water or oil repellency should be non-toxic, biocompatible, and comply with stringent health standards. Moreover, consider...

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Bibliographic Details
Published inAdvances in colloid and interface science Vol. 270; pp. 216 - 250
Main Authors Zahid, Muhammad, Mazzon, Giulia, Athanassiou, Athanassia, Bayer, Ilker S.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.08.2019
Subjects
Contact angle
Fabrics
Fluorinated
Hydrophobic
Oleophobic
Silicone
Sliding angle
Textiles
Oleophobic
Fluorinated
Sliding angle
Silicone
Fabrics
Contact angle
Hydrophobic
Textiles
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Abstract Among superhydrophobic materials, non-wettable textiles are probably the ones that come in contact or interact with the human body most frequently. Hence, textile treatments for water or oil repellency should be non-toxic, biocompatible, and comply with stringent health standards. Moreover, considering the volume of the worldwide textile industry, these treatments should be scalable, sustainable, and eco-friendly. Due to this awareness, more and more non-wettable textile treatments with eco-friendly processes and green or non-toxic chemicals are being adopted and reported. Although fluorinated alkylsilanes or fluorinated polymers with C8 chemistry (with ≥ 8 fluorinated carbon atoms) are the best performing materials to render textiles water or oil repellent, they pose substantial health and environmental problems and are being banned. For this reason, water/solvent-borne, C8-free vehicles for non-wettable treatment formulations are probably the only ones that can have commercialization prospects. Hence, researchers have come up with a variety of new, non-toxic, green formulations and materials to render fabrics liquid repellent that constitute the focus of this review paper. As such, this review article discusses and summarizes recent developments and techniques on various sustainable superhydrophobic treatments for textiles, with comparable performance and durability to formulations based on fluorinated C8 compounds. The current state-of-the-art technologies, potential commercialization prospects, and relevant limitations are discussed and summarized with examples. The review also attempts to indicate promising future strategies and new materials that can transform the process for non-wettable textiles into an all-sustainable technology. [Display omitted] •Industrialization of non-wetting textile treatments now requires the use of more sustainable approaches and materials.•C8 chemistry is very effective but breaks down into toxic and bio-persistent compounds.•Alternative and potential, eco-friendly fabric treatments were reviewed.•Nanoparticles and hydrophobic polymer combinations are needed to match C8 chemistry.
AbstractList Among superhydrophobic materials, non-wettable textiles are probably the ones that come in contact or interact with the human body most frequently. Hence, textile treatments for water or oil repellency should be non-toxic, biocompatible, and comply with stringent health standards. Moreover, considering the volume of the worldwide textile industry, these treatments should be scalable, sustainable, and eco-friendly. Due to this awareness, more and more non-wettable textile treatments with eco-friendly processes and green or non-toxic chemicals are being adopted and reported. Although fluorinated alkylsilanes or fluorinated polymers with C8 chemistry (with ≥ 8 fluorinated carbon atoms) are the best performing materials to render textiles water or oil repellent, they pose substantial health and environmental problems and are being banned. For this reason, water/solvent-borne, C8-free vehicles for non-wettable treatment formulations are probably the only ones that can have commercialization prospects. Hence, researchers have come up with a variety of new, non-toxic, green formulations and materials to render fabrics liquid repellent that constitute the focus of this review paper. As such, this review article discusses and summarizes recent developments and techniques on various sustainable superhydrophobic treatments for textiles, with comparable performance and durability to formulations based on fluorinated C8 compounds. The current state-of-the-art technologies, potential commercialization prospects, and relevant limitations are discussed and summarized with examples. The review also attempts to indicate promising future strategies and new materials that can transform the process for non-wettable textiles into an all-sustainable technology. [Display omitted] •Industrialization of non-wetting textile treatments now requires the use of more sustainable approaches and materials.•C8 chemistry is very effective but breaks down into toxic and bio-persistent compounds.•Alternative and potential, eco-friendly fabric treatments were reviewed.•Nanoparticles and hydrophobic polymer combinations are needed to match C8 chemistry.
Among superhydrophobic materials, non-wettable textiles are probably the ones that come in contact or interact with the human body most frequently. Hence, textile treatments for water or oil repellency should be non-toxic, biocompatible, and comply with stringent health standards. Moreover, considering the volume of the worldwide textile industry, these treatments should be scalable, sustainable, and eco-friendly. Due to this awareness, more and more non-wettable textile treatments with eco-friendly processes and green or non-toxic chemicals are being adopted and reported. Although fluorinated alkylsilanes or fluorinated polymers with C8 chemistry (with ≥ 8 fluorinated carbon atoms) are the best performing materials to render textiles water or oil repellent, they pose substantial health and environmental problems and are being banned. For this reason, water/solvent-borne, C8-free vehicles for non-wettable treatment formulations are probably the only ones that can have commercialization prospects. Hence, researchers have come up with a variety of new, non-toxic, green formulations and materials to render fabrics liquid repellent that constitute the focus of this review paper. As such, this review article discusses and summarizes recent developments and techniques on various sustainable superhydrophobic treatments for textiles, with comparable performance and durability to formulations based on fluorinated C8 compounds. The current state-of-the-art technologies, potential commercialization prospects, and relevant limitations are discussed and summarized with examples. The review also attempts to indicate promising future strategies and new materials that can transform the process for non-wettable textiles into an all-sustainable technology.
Among superhydrophobic materials, non-wettable textiles are probably the ones that come in contact or interact with the human body most frequently. Hence, textile treatments for water or oil repellency should be non-toxic, biocompatible, and comply with stringent health standards. Moreover, considering the volume of the worldwide textile industry, these treatments should be scalable, sustainable, and eco-friendly. Due to this awareness, more and more non-wettable textile treatments with eco-friendly processes and green or non-toxic chemicals are being adopted and reported. Although fluorinated alkylsilanes or fluorinated polymers with C8 chemistry (with ≥ 8 fluorinated carbon atoms) are the best performing materials to render textiles water or oil repellent, they pose substantial health and environmental problems and are being banned. For this reason, water/solvent-borne, C8-free vehicles for non-wettable treatment formulations are probably the only ones that can have commercialization prospects. Hence, researchers have come up with a variety of new, non-toxic, green formulations and materials to render fabrics liquid repellent that constitute the focus of this review paper. As such, this review article discusses and summarizes recent developments and techniques on various sustainable superhydrophobic treatments for textiles, with comparable performance and durability to formulations based on fluorinated C8 compounds. The current state-of-the-art technologies, potential commercialization prospects, and relevant limitations are discussed and summarized with examples. The review also attempts to indicate promising future strategies and new materials that can transform the process for non-wettable textiles into an all-sustainable technology.Among superhydrophobic materials, non-wettable textiles are probably the ones that come in contact or interact with the human body most frequently. Hence, textile treatments for water or oil repellency should be non-toxic, biocompatible, and comply with stringent health standards. Moreover, considering the volume of the worldwide textile industry, these treatments should be scalable, sustainable, and eco-friendly. Due to this awareness, more and more non-wettable textile treatments with eco-friendly processes and green or non-toxic chemicals are being adopted and reported. Although fluorinated alkylsilanes or fluorinated polymers with C8 chemistry (with ≥ 8 fluorinated carbon atoms) are the best performing materials to render textiles water or oil repellent, they pose substantial health and environmental problems and are being banned. For this reason, water/solvent-borne, C8-free vehicles for non-wettable treatment formulations are probably the only ones that can have commercialization prospects. Hence, researchers have come up with a variety of new, non-toxic, green formulations and materials to render fabrics liquid repellent that constitute the focus of this review paper. As such, this review article discusses and summarizes recent developments and techniques on various sustainable superhydrophobic treatments for textiles, with comparable performance and durability to formulations based on fluorinated C8 compounds. The current state-of-the-art technologies, potential commercialization prospects, and relevant limitations are discussed and summarized with examples. The review also attempts to indicate promising future strategies and new materials that can transform the process for non-wettable textiles into an all-sustainable technology.
Author Zahid, Muhammad
Athanassiou, Athanassia
Mazzon, Giulia
Bayer, Ilker S.
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  surname: Zahid
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  organization: Smart Materials, Istituto Italiano di Technologia, Via Morego, 30, 16163 Genova, Italy
– sequence: 2
  givenname: Giulia
  surname: Mazzon
  fullname: Mazzon, Giulia
  organization: Smart Materials, Istituto Italiano di Technologia, Via Morego, 30, 16163 Genova, Italy
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  givenname: Athanassia
  surname: Athanassiou
  fullname: Athanassiou, Athanassia
  organization: Smart Materials, Istituto Italiano di Technologia, Via Morego, 30, 16163 Genova, Italy
– sequence: 4
  givenname: Ilker S.
  surname: Bayer
  fullname: Bayer, Ilker S.
  email: ilker.bayer@iit.it
  organization: Smart Materials, Istituto Italiano di Technologia, Via Morego, 30, 16163 Genova, Italy
BackLink https://www.ncbi.nlm.nih.gov/pubmed/31277037$$D View this record in MEDLINE/PubMed
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Keywords Oleophobic
Fluorinated
Sliding angle
Silicone
Fabrics
Contact angle
Hydrophobic
Textiles
Language English
License Copyright © 2019 Elsevier B.V. All rights reserved.
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PublicationTitle Advances in colloid and interface science
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Snippet Among superhydrophobic materials, non-wettable textiles are probably the ones that come in contact or interact with the human body most frequently. Hence,...
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StartPage 216
SubjectTerms Contact angle
Fabrics
Fluorinated
Hydrophobic
Oleophobic
Silicone
Sliding angle
Textiles
Title Environmentally benign non-wettable textile treatments: A review of recent state-of-the-art
URI https://dx.doi.org/10.1016/j.cis.2019.06.001
https://www.ncbi.nlm.nih.gov/pubmed/31277037
https://www.proquest.com/docview/2253283953
Volume 270
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