Antibacterial composite cellulose fibers modified with silver nanoparticles and nanosilica

Śmiechowicz, Emilia; Niekraszewicz, B.; Kulpiński, Piotr; Dzitko, Katarzyna

doi:10.1007/s10570-018-1796-1

Cited by 53 publications

(44 citation statements)

References 17 publications

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“…The current state of the art mainly involves four technologies to combine cellulose and noble metal nanoparticles. Among them, electrostatic assembly (Dong & Hinestroza 2009;Yu et al 2018;Tang et al 2012), seed mediated synthesis followed by dip coating (Zheng et al 2013), insitu reduction (Tang et al 2014;Tang et al 2015a;Boufi et al 2011;Bumbudsanpharoke & Ko 2015;Cai et al 2009), and the incorporation of nanoparticles via dry-jet wet spinning (Chen et al 2015;Kulpinski 2007;Rac-Rumijowska et al 2017;Smiechowicz et al 2011;Smiechowicz et al 2018;Smiechowicz et al 2014;Wendler et al 2008).…”

Section: Cellulose Nanoparticle Compositesmentioning

confidence: 99%

“…This implies that AgNO3 is added to an aqueous solution of NMMO, which is then left in a darkroom for several hours. Afterwards, the solution is used to dissolve cellulose pulp under standard conditions, which is then dry-jet wet spun to man-made cellulose fibers (Kulpinski 2007;Smiechowicz et al 2011;Rac-Rumijowska et al 2017;Smiechowicz et al 2018;Smiechowicz et al 2014). As dissolution and regeneration entraps the nanoparticles in the fiber matrix, the metal cellulose composites are assumed to release less silver than any other methods described before (Chen et al 2015).…”

Section: Incorporation Via Dry-jet Wet Spinningmentioning

confidence: 99%

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Cellulose Fibers for High-Performance Textiles Functionalized with Incorporated Gold and Silver Nanoparticles

Haslinger

Rissanen

et al. 2019

ACS Sustainable Chem. Eng.

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Section: Cellulose Nanoparticle Compositesmentioning

confidence: 99%

Section: Incorporation Via Dry-jet Wet Spinningmentioning

confidence: 99%

Cellulose Fibers for High-Performance Textiles Functionalized with Incorporated Gold and Silver Nanoparticles

Haslinger

Rissanen

et al. 2019

ACS Sustainable Chem. Eng.

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“…The introduction of more significant amounts of modifier into the fibers demonstrates improved water retention (at a level of about 4-14%). This was probably due to the structure of silica, as shown in previous examinations at the Department of Man-Made Fibers, in which colloidal nanosilica was used [35]. No significant influence of the amount of introduced modifier on the conditioned tenacity and elongation at break values was observed.…”

Section: Discussionmentioning

confidence: 73%

“…Smiechowicz et al [35] conducted research concerning antibacterial nanocomposite Lyocell cellulose fibers modified with silver nanoparticles and nanosilica. Silver nanoparticles were generated by the chemical reduction of silver nitrate (AgNO 3 ) in a 50% aqueous solution of NMMO, which was used as a direct cellulose solvent for the production of Lyocell fibers.…”

Section: Introductionmentioning

confidence: 99%

Antibacterial Fibers Containing Nanosilica with Immobilized Silver Nanoparticles

Śmiechowicz

Niekraszewicz

Strzelinska

et al. 2020

Autex Research Journal

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The main aim of the presented research was to obtain antibacterial fibers containing nanosilica with immobilized silver nanoparticles. The nanomodifier in an amount of 250 ppm, 500 ppm, 1,000 ppm, and 2,000 ppm were introduced into the cellulose fiber matrix during the cellulose dissolution process. In order to assess the influence of the nanomodifier's amount in the fiber on the antibacterial activity of modified fiber, a quantitative test of the antibacterial activity of the fibers was performed. The basic parameters of modified fibers, such as the mechanical and hygroscopic, were estimated. The size and shape of the nanomodifier in the selected fibers, as well as microanalysis of the polymer matrix, were examined. The investigations were conducted by Scanning Electron Microscopy (SEM), Transmission Electron Microscopy (TEM), and Energy Dispersive Spectrometry (EDS). The obtained results allowed the selection of optimal fibers with strong antibacterial properties that can be potentially used for personal protection or medical purposes.

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“…Due to the specific characteristic of the fibers’ formation method, there is a wide range of modification possibilities. Using the NMMO method fibers with antibacterial [ 14 , 15 ], magnetic [ 16 ], thermochromic [ 17 ] or bifunctional magnetic–luminescent [ 18 ] properties can be obtained. This method also allows one to produce hybrid fibers, for example, by mixing cellulose and polyacrylonitrile (PAN) materials [ 19 ].…”

Section: Introductionmentioning

confidence: 99%

Luminescent Cellulose Fibers Modified with Poly((9-Carbazolyl)Methylthiirane)

et al. 2020

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This article presents the results of research related to the development of cellulose man-made fibers with luminescent properties. The fibers were obtained from regenerated cellulose with the use of the N-Methylmorpholine-N-Oxide (NMMO) method for lyocell (Tencel) fiber formation. The method is named after the cellulose solvent (NMMO) used to obtain the spinning solution. Fibers are formed by the dry–wet spinning method. Due to the characteristic of the lyocell process, the fibers were easily modified to achieve luminescent properties with star-shaped organic compound poly((9-carbazolyl)methylthiirane) (KMT). Fibers were examined on their mechanical parameters with the use of Zwick Z2.5/TN1S tensile testing machine, and the results show the influence of the KMT concentration in the fiber matrix on mechanical parameters of the fibers. The study also attempted to determine the concentration of the modifier in the fibers with the use of UV-VIS Spectrofluorometer JASCO. The luminescent properties of fibers were estimated as well, using Jobin–Yvon spectrofluorometer FLUOROMAX–4, and the results are very promising as the fibers emit blue light in the range of visible light spectrum even for small concentrations of KMT (about 0.1 wt.%).

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Antibacterial composite cellulose fibers modified with silver nanoparticles and nanosilica

Cited by 53 publications

References 17 publications

Cellulose Fibers for High-Performance Textiles Functionalized with Incorporated Gold and Silver Nanoparticles

Cellulose Fibers for High-Performance Textiles Functionalized with Incorporated Gold and Silver Nanoparticles

Antibacterial Fibers Containing Nanosilica with Immobilized Silver Nanoparticles

Luminescent Cellulose Fibers Modified with Poly((9-Carbazolyl)Methylthiirane)

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