Development of antibacterial cellulosic fabric via clean impregnation of silver nanoparticles

Raza, Zulfiqar Ali; Rehman, Asma; Mohsin, Muhammad; Bajwa, Sadia Z.; Anwar, Faiza; Akhtar, Naeem; Ahmad, Niaz

doi:10.1016/j.jclepro.2015.03.091

Cited by 74 publications

(30 citation statements)

References 31 publications

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“…It should be noted that all of the samples synthesized with the sonochemical method had a darker color than samples synthesized with the conventional method. This can be attributed to the effect of particle size on the visible light adsorption 49.…”

Section: Resultsmentioning

confidence: 99%

Ultrasound‐Assisted Synthesis of Cu and Cu/Ni Nanoparticles on NaP Zeolite Support as Antibacterial Agents

2016

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Synthesis, characterization, and antibacterial properties of Cu and Cu/Ni nanoparticles loaded on NaP zeolite against Bacillus subtilis and Escherichia coli were investigated. Synthesis of Cu and Ni nanoparticles of the NaP substrate was carried out by conventional and sonochemical methods in ethylene glycol medium. A Box-Behnken design of experiment was employed to analyze the influence of nanoparticle loading, Cu content of nanoparticles, and concentration of metallic salts solution on the antibacterial activity of the synthesized product. The synthesized samples provided an about one-third higher activity against B. subtilis compared to E. coli. Ultrasonic irradiation significantly improved the antibacterial activity against E. coli and B. subtilis. Time-and concentration-dependent bacterial tests of the synthesized sample under optimum conditions were performed with a central composite design of experiment.

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Section: Resultsmentioning

confidence: 99%

Ultrasound‐Assisted Synthesis of Cu and Cu/Ni Nanoparticles on NaP Zeolite Support as Antibacterial Agents

2016

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“…Recently, silver nanoparticles (AgNPs), including silver metal and silver oxide (Ag 2 O), have shown great promise in the antimicrobial applications due to their high specific surface area, high activity against a wide range of pathogens, low toxicity for human beings, and low cost [11][12][13][14][15][16][17][18][19][20][21][22]. However, these applications of the AgNPs were also troubled by environmental issues, which is mainly caused by the leaching of Ag ions from the antimicrobial textiles [23,24].…”

Section: Introductionmentioning

confidence: 99%

Durable antibacterial cotton modified by silver nanoparticles and chitosan derivative binder

Zhang

et al. 2016

Fibers Polym

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This article focuses on the functional finishing of textiles using silver nanoparticles (AgNPs) and chitosan derivative binder, which was synthesized by a modification of chitosan using α-ketoglutaric acid. The binder covalently linked to cotton fabric via esterification of the hydroxyl groups on the cotton surface, and tightly adhered to surface of the AgNPs by coordination bonds. As a result, the coating of AgNPs on the cotton fabric showed excellent antibacterial property and laundering durability. After 30 consecutive laundering cycles, the Ag content on the fabrics decreased to 37.6 %, but the bacterial reduction rates against both S. aureus and E. coli were maintained over 95 %. It has potential applications in a wide variety of fields such as sportswear, socks, and medical textile.

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“…Incorporation of other constituents inside the NPs system could also enhance to the antibacterial property on modified fabric. Among these additives are TiO 2 /SiO 2 /alginate , silica , trisodium citrate , sodium bisulfite, and sodium dithionite , tris (2‐carboxyethyl) phosphine , lecithin , glucose , butyl arylate , chitosan/polyvinyl alcohol , ethylene glycol (EG)/polyvinylpyrrolidone (PVP) , tinosan/dimethylol dihydroxyethylene urea/PVP , TiO 2 /Fe 3 O 4 [48], ammonia complex , Tollens’ agent , Tollens’ agent/PVP , 1,2,3,4‐butanetetracarboxylic acid (BTCA)/sodium hypophosphite (SHP) , hexadecyltrimethoxysilane , polypyrrole , carboxymethylcellulose , chitosan , starch , sodium alginate , alginate , chitosan‐ O ‐methoxy polyhydroxy ethylene glycol , monochlorotriazinyl‐β‐cyclodextrin, and β‐cyclodextrin (β‐CD) , poly(ethylene glycol) (PEG) , xanthan gum , poly(diallyldimethylammonium chloride) (PDADMAC) , Tragacanth gum/CA/SHP , AgBr‐TiO 2 /DMDMS/TEOS , amino‐terminated hyperbranched polymer (HBP‐NH 2 ) and sulfated β‐cyclodextrin , mercaptopropyltriethoxysilane , ciprofloxacin, and cefobid .…”

Section: Type Of Metal‐based Antibacterial Agents On Textilementioning

confidence: 99%

“…There are varieties of application techniques have been developed on coating Ag NPs onto textile materials. Among these included: pad‐dry‐cure method , dip and dry , ex situ immersion , direct sorption , spray coating , thermal reduction , hydrothermal , microwave , γ‐irradiation , sonochemical , electroless plating , plasma treatment , and self‐assembly . Table shows the summary of Ag NPs‐coated textile and its antibacterial effects.…”

Section: Type Of Metal‐based Antibacterial Agents On Textilementioning

confidence: 99%

“…At this condition, the aldehyde terminal of starch able to reduce silver ions which bound to the anionic oxygen site of cotton fabric to silver atom and stabilized the NPs on fabric surface. The obtained surface of treated cotton fabric revealed multifunctions of antibacterial activity, hydrophobicity, tensile strength, and is rougher than pristine cotton fabric . The microwave heating synthesis is advantageous over conventional heating due to its rapid nucleation sites generation and thus enhances the reaction rates.…”

Section: Type Of Metal‐based Antibacterial Agents On Textilementioning

confidence: 99%

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A review of antimicrobial fabric containing nanostructures metal‐based compound

Tan

Sin

Bee

et al. 2017

Vinyl Additive Technology

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Textile can be a potential microorganism's propagation site because it contacts with human skin endows optimal conditions combination of nutrient sources, temperature, and moisture which provides conducive environment for microorganism growth. Thus, the development of antibacterial textile is crucial to inhibit the growth of microorganisms for protection the health and safety of wearer. This review article focuses on several metal-based nanoparticles possess biocidal feature namely, Ag, ZnO, Cu based, TiO 2 , and other minor metals based such as iron based, CeO 2 , Au, SiO 2 , Ni, and Pt. The phenomenology of metal nanoparticles associated to the antibacterial effects and possible mechanisms of action against bacteria have been highlighted. This review also discussed the synthesis techniques and effects of incorporation additive materials of those metal-based nanoparticles to inhibit the growth of microorganisms. J. VINYL ADDIT. TECH-NOL., 00:000-000,

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Development of antibacterial cellulosic fabric via clean impregnation of silver nanoparticles

Cited by 74 publications

References 31 publications

Ultrasound‐Assisted Synthesis of Cu and Cu/Ni Nanoparticles on NaP Zeolite Support as Antibacterial Agents

Ultrasound‐Assisted Synthesis of Cu and Cu/Ni Nanoparticles on NaP Zeolite Support as Antibacterial Agents

Durable antibacterial cotton modified by silver nanoparticles and chitosan derivative binder

A review of antimicrobial fabric containing nanostructures metal‐based compound

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