Enhanced Natural Dyeing and Antibacterial Properties of Cotton by Physical and Chemical Pretreatments

In this study, pomegranate peel extract was used to dye cotton fabrics. Generally, natural dyes have low affinity for cellulosic fibers and therefore need treatment for attachment. Air atmospheric plasma was applied to lower the concentrations of mordants needed and enhance dyeability. The outcomes...

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Veröffentlicht in:	Processes 2022-11, Vol.10 (11), p.2263
Hauptverfasser:	Ennaceur, Soukaina, Bouaziz, Aicha, Gargoubi, Sondes, Mnif, Wissem, Dridi, Dorra
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum Antibacterial agents Antimicrobial agents Cellulose fibers Chemicals Chromium Color Contact angle Copper Cotton Cotton dyeing Cotton fabrics Dyeing Dyes Environmental impact Evaluation Fabrics Fibers Inductively coupled plasma Iron Metal ions Metals Mordant dyes Plant extracts Plasma Plasma physics Rubbing Textile fibers
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creator	Ennaceur, Soukaina Bouaziz, Aicha Gargoubi, Sondes Mnif, Wissem Dridi, Dorra
description	In this study, pomegranate peel extract was used to dye cotton fabrics. Generally, natural dyes have low affinity for cellulosic fibers and therefore need treatment for attachment. Air atmospheric plasma was applied to lower the concentrations of mordants needed and enhance dyeability. The outcomes showed that the residual concentrations of metallic ions decreased when applying the plasma treatment. ATR-FTIR and SEM analysis were performed to evaluate the effect of plasma modification on the surface chemistry and topography of the cellulosic fibers. The traces of metals released from finished fabric were quantified using ICP OES spectrometry. Color fastnesses (wash, rubbing and light) were evaluated to assess the mordanting step effect and the durability of the color. All tested fastnesses were good to very good. The concentrations of metal ions in finished fabrics were 32.4 for Fe, 0.28 for Al, 0.29 for Cr and 1.21 for Cu. Plasma treatment can be considered an efficient strategy to reduce the concentration of toxic metallic mordants.
doi_str_mv	10.3390/pr10112263
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Generally, natural dyes have low affinity for cellulosic fibers and therefore need treatment for attachment. Air atmospheric plasma was applied to lower the concentrations of mordants needed and enhance dyeability. The outcomes showed that the residual concentrations of metallic ions decreased when applying the plasma treatment. ATR-FTIR and SEM analysis were performed to evaluate the effect of plasma modification on the surface chemistry and topography of the cellulosic fibers. The traces of metals released from finished fabric were quantified using ICP OES spectrometry. Color fastnesses (wash, rubbing and light) were evaluated to assess the mordanting step effect and the durability of the color. All tested fastnesses were good to very good. The concentrations of metal ions in finished fabrics were 32.4 for Fe, 0.28 for Al, 0.29 for Cr and 1.21 for Cu. 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subjects	Aluminum Antibacterial agents Antimicrobial agents Cellulose fibers Chemicals Chromium Color Contact angle Copper Cotton Cotton dyeing Cotton fabrics Dyeing Dyes Environmental impact Evaluation Fabrics Fibers Inductively coupled plasma Iron Metal ions Metals Mordant dyes Plant extracts Plasma Plasma physics Rubbing Textile fibers
title	Enhanced Natural Dyeing and Antibacterial Properties of Cotton by Physical and Chemical Pretreatments
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