Knitted Structures Made of Antibacterial Fibers Intended for Protective Gloves

At a time of growing epidemic hazards caused by a very rapid evolution of dangerous pathogens, there is a pressing demand for bioactive textiles. Therefore, the development of high-quality knitted structures that could be used as bioactive protective materials has become a priority. This publication...

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Veröffentlicht in:	Materials 2023-11, Vol.16 (23), p.7276
Hauptverfasser:	Smiechowicz, Emilia, Niekraszewicz, Barbara, Klonowska, Magdalena, Strzelinska, Marta, Irzmanska, Emilia, Litwicka, Natalia
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Sprache:	eng
Schlagworte:	Antibacterial agents Antiinfectives and antibacterials Bacteria Biological activity Cellulose Cellulose fibers Copper Cotton E coli Fabrics Gloves Hospitals Indoor air quality Knit goods Masks Outdoor air quality Parameters Pathogens Permeability Physical properties Polyesters Protective clothing R&D Research & development Silver Textiles Vapor resistance Water vapor
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creator	Smiechowicz, Emilia Niekraszewicz, Barbara Klonowska, Magdalena Strzelinska, Marta Irzmanska, Emilia Litwicka, Natalia
description	At a time of growing epidemic hazards caused by a very rapid evolution of dangerous pathogens, there is a pressing demand for bioactive textiles. Therefore, the development of high-quality knitted structures that could be used as bioactive protective materials has become a priority. This publication describes the fabrication of functional knitted structures from previously prepared antibacterial cellulose fibers containing nanosilica with immobilized silver nanoparticles. The structural and physical parameters of knitted fabrics made from them were studied with a view to their potential application in bioactive protective gloves. Tests of the basic structural and physical parameters of the knitted fabrics did not show that the nanomodifier applied in fibers significantly impacts the physical properties of the resulting fabrics. Moreover, water vapor permeability, cut resistance, and pH test results relevant to the functional and protective properties of interest and to user comfort showed that the obtained fabrics can be used in the production of bioactive protective gloves.
doi_str_mv	10.3390/ma16237276
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subjects	Antibacterial agents Antiinfectives and antibacterials Bacteria Biological activity Cellulose Cellulose fibers Copper Cotton E coli Fabrics Gloves Hospitals Indoor air quality Knit goods Masks Outdoor air quality Parameters Pathogens Permeability Physical properties Polyesters Protective clothing R&D Research & development Silver Textiles Vapor resistance Water vapor
title	Knitted Structures Made of Antibacterial Fibers Intended for Protective Gloves
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