Green surface modification and nano-multifunctionalization of denim fabric

Eco-friendly multifunctional denim products using environmentally sound technologies are still a challenge. In current study, enzymatic pretreatments of denim fabric using acid pectinases, laccases, and acid cellulases individually and in admixtures were carried out followed by post-nanocoating of b...

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Published inCellulose (London) Vol. 25; no. 10; pp. 6207 - 6220
Main Authors Ibrahim, Nabil A., Eid, Basma M., Abdel Aziz, Mohamed S., Hamdy, Soha M., Abd Allah, Safaa E.
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Netherlands 01.10.2018
Springer Nature B.V
Subjects
Admixtures
Antiinfectives and antibacterials
Bioorganic Chemistry
cellulases
cellulose
Ceramics
Chemistry
Chemistry and Materials Science
Citric acid
color
Composites
Crosslinking
Denim
Energy dispersive X ray spectroscopy
energy-dispersive X-ray analysis
enzymatic treatment
Enzymes
Fabric structures
Fixation
Glass
laccase
Metal oxides
Microorganisms
Natural Materials
Organic Chemistry
Original Paper
Pectinase
Physical Chemistry
Polymer Sciences
Properties (attributes)
sodium
Sustainable Development
sustainable technology
synergism
Synergistic effect
Titanium dioxide
Zinc oxide
Denim fabric
Multifunctional properties
Nano-coating
Potential applications
Bio-processing
Online AccessGet full text
ISSN0969-0239
1572-882X
DOI10.1007/s10570-018-1985-y

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Abstract Eco-friendly multifunctional denim products using environmentally sound technologies are still a challenge. In current study, enzymatic pretreatments of denim fabric using acid pectinases, laccases, and acid cellulases individually and in admixtures were carried out followed by post-nanocoating of bio-treated fabric samples with ZnO- and TiO 2 -NPs along with citric acid/sodium hypophosphite as ester-crosslinking/binding system using the pad-dry-microwave fixation technique. The impacts of enzymatic and subsequent nano-treatments on some physico-chemical, color change, anti-microbial and UV-blocking properties were assessed. Also, surface modification and nano-metal oxides immobilization were observed and confirmed using scan electron microscope and energy dispersive X-ray spectroscopy analysis. The experimental results revealed that the degree of surface modification and subsequent multifunctionalization are governed by type of enzyme or hybrid enzyme as well as kind of nano-metal oxide and its extent of fixation onto the modified/ester-crosslinked denim fabric structure. The synergistic effect and positive impacts of enzymatic treatment followed by nanofinishing especially in case of using ZnO-NPs on imparting better and durable performance and multifunctional properties without adversely affecting the coloration properties of denim fabric samples are confirmed and discussed. Mode of interactions was also suggested. Graphical abstract
AbstractList Eco-friendly multifunctional denim products using environmentally sound technologies are still a challenge. In current study, enzymatic pretreatments of denim fabric using acid pectinases, laccases, and acid cellulases individually and in admixtures were carried out followed by post-nanocoating of bio-treated fabric samples with ZnO- and TiO2-NPs along with citric acid/sodium hypophosphite as ester-crosslinking/binding system using the pad-dry-microwave fixation technique. The impacts of enzymatic and subsequent nano-treatments on some physico-chemical, color change, anti-microbial and UV-blocking properties were assessed. Also, surface modification and nano-metal oxides immobilization were observed and confirmed using scan electron microscope and energy dispersive X-ray spectroscopy analysis. The experimental results revealed that the degree of surface modification and subsequent multifunctionalization are governed by type of enzyme or hybrid enzyme as well as kind of nano-metal oxide and its extent of fixation onto the modified/ester-crosslinked denim fabric structure. The synergistic effect and positive impacts of enzymatic treatment followed by nanofinishing especially in case of using ZnO-NPs on imparting better and durable performance and multifunctional properties without adversely affecting the coloration properties of denim fabric samples are confirmed and discussed. Mode of interactions was also suggested.Graphical abstract
Eco-friendly multifunctional denim products using environmentally sound technologies are still a challenge. In current study, enzymatic pretreatments of denim fabric using acid pectinases, laccases, and acid cellulases individually and in admixtures were carried out followed by post-nanocoating of bio-treated fabric samples with ZnO- and TiO 2 -NPs along with citric acid/sodium hypophosphite as ester-crosslinking/binding system using the pad-dry-microwave fixation technique. The impacts of enzymatic and subsequent nano-treatments on some physico-chemical, color change, anti-microbial and UV-blocking properties were assessed. Also, surface modification and nano-metal oxides immobilization were observed and confirmed using scan electron microscope and energy dispersive X-ray spectroscopy analysis. The experimental results revealed that the degree of surface modification and subsequent multifunctionalization are governed by type of enzyme or hybrid enzyme as well as kind of nano-metal oxide and its extent of fixation onto the modified/ester-crosslinked denim fabric structure. The synergistic effect and positive impacts of enzymatic treatment followed by nanofinishing especially in case of using ZnO-NPs on imparting better and durable performance and multifunctional properties without adversely affecting the coloration properties of denim fabric samples are confirmed and discussed. Mode of interactions was also suggested. Graphical abstract
Eco-friendly multifunctional denim products using environmentally sound technologies are still a challenge. In current study, enzymatic pretreatments of denim fabric using acid pectinases, laccases, and acid cellulases individually and in admixtures were carried out followed by post-nanocoating of bio-treated fabric samples with ZnO- and TiO₂-NPs along with citric acid/sodium hypophosphite as ester-crosslinking/binding system using the pad-dry-microwave fixation technique. The impacts of enzymatic and subsequent nano-treatments on some physico-chemical, color change, anti-microbial and UV-blocking properties were assessed. Also, surface modification and nano-metal oxides immobilization were observed and confirmed using scan electron microscope and energy dispersive X-ray spectroscopy analysis. The experimental results revealed that the degree of surface modification and subsequent multifunctionalization are governed by type of enzyme or hybrid enzyme as well as kind of nano-metal oxide and its extent of fixation onto the modified/ester-crosslinked denim fabric structure. The synergistic effect and positive impacts of enzymatic treatment followed by nanofinishing especially in case of using ZnO-NPs on imparting better and durable performance and multifunctional properties without adversely affecting the coloration properties of denim fabric samples are confirmed and discussed. Mode of interactions was also suggested.
Author Eid, Basma M.
Ibrahim, Nabil A.
Abdel Aziz, Mohamed S.
Hamdy, Soha M.
Abd Allah, Safaa E.
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  organization: Textile Research Division, National Research Centre
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  surname: Abdel Aziz
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  surname: Hamdy
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  organization: Chemistry Department, Faculty of Science, Fayoum University
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  fullname: Abd Allah, Safaa E.
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Keywords Denim fabric
Multifunctional properties
Nano-coating
Potential applications
Bio-processing
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Snippet Eco-friendly multifunctional denim products using environmentally sound technologies are still a challenge. In current study, enzymatic pretreatments of denim...
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SubjectTerms Admixtures
Antiinfectives and antibacterials
Bioorganic Chemistry
cellulases
cellulose
Ceramics
Chemistry
Chemistry and Materials Science
Citric acid
color
Composites
Crosslinking
Denim
Energy dispersive X ray spectroscopy
energy-dispersive X-ray analysis
enzymatic treatment
Enzymes
Fabric structures
Fixation
Glass
laccase
Metal oxides
Microorganisms
Natural Materials
Organic Chemistry
Original Paper
Pectinase
Physical Chemistry
Polymer Sciences
Properties (attributes)
sodium
Sustainable Development
sustainable technology
synergism
Synergistic effect
Titanium dioxide
Zinc oxide
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Title Green surface modification and nano-multifunctionalization of denim fabric
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