Certain investigations on the effect of nano metal oxide finishes on the multifunctional characteristics of cotton fabrics

Sivakumar, A.; Ramu, M.; Sundaresan, K

doi:10.1177/1528083712450741

Cited by 12 publications

(11 citation statements)

References 10 publications

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“…Recently, interest is focused on the use of ZnO nanoparticles because the decreasing of the size of the particles led to increasing the surfaceto-mass ratio and consequently changing the chemical, mechanical, and optical properties of the fabric (31)(32)(33)(34)(35)(36)(37) . ZnO nanoparticles have excellent UV protective properties but have poor adsorption capacity towards textile materials.…”

Section: Treatment With Oxygen Plasma and Zno Nanoparticlesmentioning

confidence: 99%

Recent Advances in Plasma/Nanoparticles Treatments of Textile Fibers

Raslan

El-Halwagy

El‐Sayad

2020

J.Text.color. pol. sci.

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A GENERAL review on natural and synthetic fabrics treatments with low-temperature plasma using various gases in presence of different types of nanoparticles is given. The effect of using plasma/nanoparticles on the surface morphology, physical and mechanical properties of the treated fabrics is declared. Using combined plasma and nanoparticles treatments show a noticeable effect and great enhancement on many properties of all textile fibers. Improvement of functional properties of textile materials is considered crucial to the textile industry. Dyeing and printing improvement could be achieved and it was found to depend on the types of plasma and nanoparticles used. Scanning electron microscopy showed that the surface characteristics of all fabrics were changed while the bulk properties were mainly maintained unchanged. Textile industries see a promising future for plasma/ nanoparticles technology, with the environmental and energy conservation benefits, in developing high-performance materials for the world market.

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Section: Treatment With Oxygen Plasma and Zno Nanoparticlesmentioning

confidence: 99%

Recent Advances in Plasma/Nanoparticles Treatments of Textile Fibers

Raslan

El-Halwagy

El‐Sayad

2020

J.Text.color. pol. sci.

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“…Fourier transform infrared (FTIR) spectroscopy, transmission electron microscopy, particle size analyser, powder X-ray diffraction (XRD) and scanning electron microscopy (SEM). 12,13 Antimicrobial finish is a requirement on the textile substrate for the protection of the wearer. Textiles generally do not exhibit resistance to bacterial growth.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of multifunctional properties of polyester/cotton blend treated with unmodified and modified nano-TiO₂particles

Sivakumar

Ramu

Periyasamy

2016

Materials Technology

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TiO 2 nanoparticles have been synthesised using sol-gel technique by titanium tetraisopropoxide (C 12 H 28 O 4 Ti,) as a precursor. The particle has been modified using 3-aminopropyltriethoxysilane as a surface modifier. The unmodified and modified particles were characterise for size and distribution using a particle size analyser, which works on dynamic light scattering principle. The particles have been applied on polyester/cotton woven fabric for various concentrations of nanoparticles. The treated fabric has been characterised for protective properties such as antimicrobial activity (against Staphylococcus aureus, Klebsiella pneumonia and Escherichia coli) and ultraviolet protection factor (UPF) factors and for easy care properties such as soil release and self-cleaning behaviours. The functionality of the treated fabric was studied and also tested for durability for repeated wash cycles. The particle size of unmodified and modified TiO 2 have been found to be 25 and 18 nm respectively. The treated samples with modified TiO 2 have shown higher antimicrobial activity. Self-cleaning effect of the modified TiO 2 treated fabric has been found to be notably higher than the unmodified TiO 2 treated fabric. Soil release effect, which was studied subjectively, also showed improved performance for those fabrics treated with modified nano-TiO 2 . The UPF results of the unmodified and modified nano-TiO 2 fabric did not have notable differences but were almost the same. Both unmodified and modified TiO 2 treated fabrics have shown the::deceasing treated in all the functional properties studied; however, the rate of decrease was low up to the tenth wash, and then, it became notable at the fifteenth and above wash cycles. The surface light reflection characteristics, through whiteness index of the unmodified TiO 2 treated fabrics, were also found to be at increasing trend with treatment concentration.

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“…Recently, we have been witnessing an increasing interest in the use of ZnO nanoparticles, due to the fact that decreasing the size of the particles increases their surfaceto-mass ratio, consequently changing the fabrics' chemical, mechanical, and optical properties [3][4][5][6]. Moreover, ZnO nanoparticles are an excellent blocker of UV radiation.…”

Section: Introductionmentioning

confidence: 99%

“…Smaller particles of ZnO offer better protection from harmful UV radiation than larger particles. The application of ZnO nanoparticles to textiles is primarily carried out by means of wet-chemical procedures [3][4][5][9][10][11], using synthetized [3-5, 9, 12-14] or ready-made ZnO nanoparticles [15]. Synthetized ZnO nanoparticles are applied to cotton fabrics by impregnating with a wet pick-up of 100%, drying, and curing or by treating the fabric in a bath for 10 minutes using a magnetic stirrer, drying, and curing [2,4].…”

Section: Introductionmentioning

confidence: 99%

Functionalization of Cellulose Fibres with Oxygen Plasma and ZnO Nanoparticles for Achieving UV Protective Properties

Jazbec

Šala

Mozetič

et al. 2015

Journal of Nanomaterials

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Low-pressure oxygen plasma created by an electrodeless radiofrequency (RF) discharge was applied to modify the properties of cellulosic fibrous polymer (cotton) in order to improve adsorption properties towards zinc oxide (ZnO) nanoparticles and to achieve excellent ultraviolet (UV) protective properties of cotton fabric. The chemical and physical surface modifications of plasma-treated cotton fabric were examined by X-ray photoelectron spectroscopy (XPS) and scanning electron microscopy (SEM). The mechanical properties of plasma-treated samples were evaluated, measuring strength and elongation of the fabrics. The quantity of zinc on the ZnO-functionalized cotton samples was determined using inductively coupled plasma mass spectrometry (ICP-MS) and the effectiveness of plasma treatment for UV protective properties of cotton fabrics was evaluated using UV-VIS spectrometry, measuring the UV protection factor (UPF). The results indicated that longer plasma treatment times cause higher concentration of oxygen functional groups on the surface of fibres and higher surface roughness of fibres. These two conditions are crucial in increasing the content of ZnO nanoparticles on the fibres, providing excellent UV protective properties of treated cotton, with UPF factor up to 65.93.

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Certain investigations on the effect of nano metal oxide finishes on the multifunctional characteristics of cotton fabrics

Cited by 12 publications

References 10 publications

Recent Advances in Plasma/Nanoparticles Treatments of Textile Fibers

Recent Advances in Plasma/Nanoparticles Treatments of Textile Fibers

Evaluation of multifunctional properties of polyester/cotton blend treated with unmodified and modified nano-TiO₂particles

Functionalization of Cellulose Fibres with Oxygen Plasma and ZnO Nanoparticles for Achieving UV Protective Properties

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Certain investigations on the effect of nano metal oxide finishes on the multifunctional characteristics of cotton fabrics

Cited by 12 publications

References 10 publications

Recent Advances in Plasma/Nanoparticles Treatments of Textile Fibers

Recent Advances in Plasma/Nanoparticles Treatments of Textile Fibers

Evaluation of multifunctional properties of polyester/cotton blend treated with unmodified and modified nano-TiO2particles

Functionalization of Cellulose Fibres with Oxygen Plasma and ZnO Nanoparticles for Achieving UV Protective Properties

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Evaluation of multifunctional properties of polyester/cotton blend treated with unmodified and modified nano-TiO₂particles