This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Zhou J, Hu Z, Zabihi F, Chen Z, Zhu M. Progress and Perspective of Antiviral Protective Material. Adv Fiber Mater. 2020;2(3):123–39.ZhouJHuZZabihiFChenZZhuM.Progress and Perspective of Antiviral Protective Material.Adv Fiber Mater.2020;2(3):123–39.Search in Google Scholar
Lamba NM, Herson DS, Jindani R, King MW. Evaluation of antimicrobial-treated fabric properties. AATCC J Res. 2017;4(1):14–21.LambaNMHersonDSJindaniRKingMW.Evaluation of antimicrobial-treated fabric properties.AATCC J Res.2017;4(1):14–21.Search in Google Scholar
Krisciunaite J, Kalendraite B, Ragelienė L, Merkelyte E, Mikucioniene D. Durable Wash-Resistant Antimicrobial Treatment of Knitted Fabrics. Autex Res J. 2021;1– 10.KrisciunaiteJKalendraiteBRagelienėLMerkelyteEMikucionieneD.Durable Wash-Resistant Antimicrobial Treatment of Knitted Fabrics.Autex Res J.2021;1–10.Search in Google Scholar
Simoncic B, Tomsic B. Structures of Novel Antimicrobial Agents for Textiles-A Review. Text Res J. 2010;80(16):1721– 37.SimoncicBTomsicB.Structures of Novel Antimicrobial Agents for Textiles-A Review.Text Res J.2010;80(16):1721–37.Search in Google Scholar
Fu SJ, Zhang PH. Surface modification of polylactic acid and poly (D, L-lactide-co-glycolide) biodegradable materials via chitosan-coating treatment: A new approach for developing novel antibacterial acupoint catgut embedding materials. Text Res J. 2019;89(13):2583– 94.FuSJZhangPH.Surface modification of polylactic acid and poly (D, L-lactide-co-glycolide) biodegradable materials via chitosan-coating treatment: A new approach for developing novel antibacterial acupoint catgut embedding materials.Text Res J.2019;89(13):2583–94.Search in Google Scholar
Mahltig B, Fiedler D, Fischer A, Simon P. Antimicrobial coatings on textiles-modification of sol-gel layers with organic and inorganic biocides. J Sol-Gel Sci Technol. 2010;55(3):269–77.MahltigBFiedlerDFischerASimonP.Antimicrobial coatings on textiles-modification of sol-gel layers with organic and inorganic biocides.J Sol-Gel Sci Technol.2010;55(3):269–77.Search in Google Scholar
Hossain MM, Herrmann AS, Hegemann D. Plasma hydrophilization effect on different textile structures. Plasma Process Polym. 2006;3(3):299–307.HossainMMHerrmannASHegemannD.Plasma hydrophilization effect on different textile structures.Plasma Process Polym.2006;3(3):299–307.Search in Google Scholar
Nourbakhsh S, Montazer M, khandaghabadi Z. Zinc oxide nano particles coating on polyester fabric functionalized through alkali treatment. J Ind Text. 2018;47(6):1006–23.NourbakhshSMontazerMkhandaghabadiZ.Zinc oxide nano particles coating on polyester fabric functionalized through alkali treatment.J Ind Text.2018;47(6):1006–23.Search in Google Scholar
Üreyen ME, Doġan A, Koparal AS. Antibacterial functionalization of cotton and polyester fabrics with a finishing agent based on silver-doped calcium phosphate powders. Text Res J. 2012;82(17):1731– 42.ÜreyenMEDoġanAKoparalAS.Antibacterial functionalization of cotton and polyester fabrics with a finishing agent based on silver-doped calcium phosphate powders.Text Res J.2012;82(17):1731–42.Search in Google Scholar
xu H, Shi X, lv Y, Mao Z. The preparation and antibacterial activity of polyester fabric loaded with silver nanoparticles. Text Res J. 2013;83(3):321–6.xuHShiXlvYMaoZ.The preparation and antibacterial activity of polyester fabric loaded with silver nanoparticles.Text Res J.2013;83(3):321–6.Search in Google Scholar
Kandhavadivu P, Vigneswaran C, Ramachandran T, Geethamanohari B. Development of polyester-based bamboo charcoal and lyocell-blended union fabrics for healthcare and hygienic textiles. J Ind Text. 2011;41(2):142–59.KandhavadivuPVigneswaranCRamachandranTGeethamanohariB.Development of polyester-based bamboo charcoal and lyocell-blended union fabrics for healthcare and hygienic textiles.J Ind Text.2011;41(2):142–59.Search in Google Scholar
Miaśkiewicz-Peska E, Łebkowska M. Effect of antimicrobial air filter treatment on bacterial survival. Fibres Text East Eur. 2011;84(1):73–7.Miaśkiewicz-PeskaEŁebkowskaM.Effect of antimicrobial air filter treatment on bacterial survival.Fibres Text East Eur.2011;84(1):73–7.Search in Google Scholar
Repon MR, Islam T, Sadia HT, Mikučionienė D, Hossain S, Kibria G, et al. Development of Antimicrobial Cotton Fabric Impregnating AgNPs Utilizing Contemporary Practice. Coatings. 2021;11(11):1–14.ReponMRIslamTSadiaHTMikučionienėDHossainSKibriaGDevelopment of Antimicrobial Cotton Fabric Impregnating AgNPs Utilizing Contemporary Practice.Coatings.2021;11(11):1–14.Search in Google Scholar
Mata TM, Martins AA, Calheiros CSC, Villanueva F, Alonso-Cuevilla NP, Gabriel MF, et al. Indoor Air Quality: A Review of Cleaning Technologies. Environ-MDPI. 2022;9(9):1–28.MataTMMartinsAACalheirosCSCVillanuevaFAlonso-CuevillaNPGabrielMFIndoor Air Quality: A Review of Cleaning Technologies.Environ-MDPI.2022;9(9):1–28.Search in Google Scholar
Khaothong K, Chaiworapuek W, Priyadumkol J. Pressure Loss Diagram of Air Flow in Polyester Fabric Duct Acrylic PVC Coated. J King Mongkut’s Univ Technol North Bangkok. 2019;29(3):445– 53.KhaothongKChaiworapuekWPriyadumkolJ.Pressure Loss Diagram of Air Flow in Polyester Fabric Duct Acrylic PVC Coated.J King Mongkut’s Univ Technol North Bangkok.2019;29(3):445–53.Search in Google Scholar
Gulati R, Sharma S, Sharma RK.Antimicrobial textile: recent developments and functional perspective. Polym Bull. 2022;79(8):5747–71.GulatiRSharmaSSharmaRK.Antimicrobial textile: recent developments and functional perspective.Polym Bull.2022;79(8):5747–71.Search in Google Scholar
Morais DS, Guedes RM, Lopes MA. Antimicrobial approaches for textiles: From research to market. Materials (Basel). 2016;9(6):1–21.MoraisDSGuedesRMLopesMA.Antimicrobial approaches for textiles: From research to market.Materials (Basel).2016;9(6):1–21.Search in Google Scholar
Dolez PI, Marsha S, McQueen RH. Fibers and Textiles for Personal Protective Equipment: Review of Recent Progress and Perspectives on Future Developments. Textiles. 2022;2(2):349–81.DolezPIMarshaSMcQueenRH.Fibers and Textiles for Personal Protective Equipment: Review of Recent Progress and Perspectives on Future Developments.Textiles.2022;2(2):349–81.Search in Google Scholar
Schneider G, Vieira LG, Carvalho HEF de, Sousa ÁFL de, Watanabe E, Andrade D de, et al. Textiles impregnated with antimicrobial substances in healthcare services: systematic review. Front Public Heal. 2023;11:1–24.SchneiderGVieiraLGde CarvalhoHEFde SousaÁFLWatanabeEde AndradeDTextiles impregnated with antimicrobial substances in healthcare services: systematic review.Front Public Heal.2023;11:1–24.Search in Google Scholar
Simončič B, Klemenčič D. Preparation and performance of silver as an antimicrobial agent for textiles: A review. Text Res J. 2016;86(2):210–23.SimončičBKlemenčičD.Preparation and performance of silver as an antimicrobial agent for textiles: A review.Text Res J.2016;86(2):210–23.Search in Google Scholar
Naebe M, Haque ANMA, Haji A. Plasma-Assisted Antimicrobial Finishing of Textiles: A Review. Engineering. 2022;12:145–63.NaebeMHaqueANMAHajiA.Plasma-Assisted Antimicrobial Finishing of Textiles: A Review.Engineering.2022;12:145–63.Search in Google Scholar
Ivanova N, Gugleva V, Dobreva M, Pehlivanov I, Stefanov S, Andonova V. Antimicrobial Agents for Textiles: Types, Mechanisms and Analysis Standards. In: Kumar B, editor. Textiles for Functional Applications. IntechOpen; 2021. p. 302.IvanovaNGuglevaVDobrevaMPehlivanovIStefanovSAndonovaV.Antimicrobial Agents for Textiles: Types, Mechanisms and Analysis Standards. In:KumarB, editor.Textiles for Functional Applications.IntechOpen;2021. p.302.Search in Google Scholar
Tanasa F, Teaca C-A, Nechifor M, Ignat M, Duceac IA, Ignat L. Highly Specialized Textiles with Antimicrobial Functionality—Advances and Challenges. Textiles. 2023;3(2):219–45.TanasaFTeacaC-ANechiforMIgnatMDuceacIAIgnatL.Highly Specialized Textiles with Antimicrobial Functionality—Advances and Challenges.Textiles.2023;3(2):219–45.Search in Google Scholar
Smart Inovation. Si Bac-Pure® microbial. 2021. Available from: http ://www. smartinovation.com/index.php/en/ products-bac-pure/Smart InovationSi Bac-Pure® microbial.2021.Available from:http://www.smartinovation.com/index.php/en/products-bac-pure/
Search in Google Scholar
ISO 6330:2012. Textiles — Domestic washing and drying procedures for textile testing. 2012.ISO 6330:2012.Textiles — Domestic washing and drying procedures for textile testing.2012Search in Google Scholar
ISO 20645:2004. Textile fabrics — Determination of antibacterial activity — Agar diffusion plate test. 2004.ISO 20645:2004.Textile fabrics — Determination of antibacterial activity — Agar diffusion plate test.2004.Search in Google Scholar
SN 195920-1992. Textile Fabrics-Determination of the Antibacterial Activity-Agar Diffusion Plate Test. 1992.SN 195920-1992.Textile Fabrics-Determination of the Antibacterial Activity-Agar Diffusion Plate Test.1992.Search in Google Scholar
EN ISO 1149-1:2006. Protective clothing-Electrostatic properties-Part 1: Testmethod for measurement of surface resistivity. 2006.EN ISO 1149-1:2006.Protective clothing-Electrostatic properties-Part 1: Test method for measurement of surface resistivity.2006.Search in Google Scholar
ISO 139:2005. Textiles — Standard atmospheres for conditioning and testing. 2005.ISO 139:2005.Textiles — Standard atmospheres for conditioning and testing.2005.Search in Google Scholar
Abdullah I, Gilani SQZ, Mubeen F. Effect of repeated laundering on durability and bactericidal activity of some antibacterial finishes. Pakistan J Sci Ind Res Ser A Phys Sci. 2014;57(1):47–52.AbdullahIGilaniSQZMubeenF.Effect of repeated laundering on durability and bactericidal activity of some antibacterial finishes.Pakistan J Sci Ind Res Ser A Phys Sci.2014;57(1):47–52.Search in Google Scholar
