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The Combination of Atmospheric Plasma and Chemical Treatments for Antibacterial Finish on Cotton

Yıl 2017, Cilt: 24 Sayı: 106, 72 - 77, 30.06.2017

Öz

The aim of this study was to investigate the incorporation of triclosan based chemical into cyclodextrin based commercial product, bonded onto cotton fabric with and without plasma modification. The treated samples were characterized by SEM analysis. The antibacterial activities of the washed and unwashed samples were evaluated according to the AATCC Test Method 147-1998 and some physical properties were also investigated. It was observed that after the combination process of triclosan, cyclodextrin and atmospheric plasma modification, cotton fabric was able to retain its antibacterial activity up to the 5 washing cycles at 60°C. 

Kaynakça

  • Orhan, M., Kut, D., Gunesoglu, C., (2009), Improving the Antibacterial Activity of Cotton Fabrics Finished with Triclosan by the Use of 1,2,3,4-Butanetetracarboxylic Acid and Citric Acid, Journal of Applied Polymer Science, 111, 1344–1352.
  • Shahidi, S., Ghoranneviss, M. , Moazzenchi, B., (2007), Investigation of Antibacterial Activity on Cotton Fabrics with Cold Plasma in the Presence of a Magnetic Field, Plasma Process. Polymer, 4, 1098–1103.
  • Simoncic, B., Tomsic, B., (2010), Structures of Novel Antimicrobial Agents for Textiles –A Review, Textile Research Journal, 80(16), 1721–1737.
  • Rivera, BMP., (2006), Plasma-Aided Antimicrobial and Insect Repellant Finishing of Cotton, Master Thesis, Raleigh.
  • Kumbasar, E.P.A., Atav, R., Yurdakul, A., (2009), Equalizing effect of β-cyclodextrin on dyeing of polyamide 6,6 woven fabrics with acid dyes, Journal of Applied Polymer Science,103, 2660-2668.
  • Voncina, B., Vivod., V., Chen, T., (2009), Surface Modification of PET Fibers with the Use of β-Cyclodextrin, Journal of Applied Polymer Science, 113, 3891–3895.
  • Bajpai, M., Gupta, P. , Bajpai, S.K., (2010), Silver(I) Ions Loaded Cyclodextrin-Grafted-Cotton Fabric with Excellent Antimicrobial Property, Fibers and Polymers,11(1), 8-13.
  • Hebeish, A., El-Shafei, A., Sharaf, S. , Zaghloul, S., (2011), Novel precursors for green synthesis and application of silver nanoparticles in the realm of cotton finishing, Carbohydrate Polymers, 84, 605–613.
  • Sricharussin, W., Sopajaree, C., Maneerung, T. , Sangsuriya, N., (2009), Modification of cotton fabrics with β-cyclodextrin derivative for aroma finishing, The Jour of The Text Inst,100(8), 682–687.
  • John, MJ. , Anandjiwala, RD., (2011), Surface modification and preparation techniques for textile materials, Woodhead Publishing Limited, Cambridge.
  • Karahan, HA. , Özdoğan, E., (2009), Improvements of Surface Functionality of Cotton Fibers by Atmospheric Plasma Treatment, Fibers and Polymers, 9(1), 21-26.
  • Orhan, M., Kut, D., Guneşoğlu, C., (2007), Use of triclosan as antibacterial agent in textiles, Industrial Journal of Fiber Textile Research, 32, 114-118.
  • Gorjanc, M., Bukošek, V., Gorenšek, M. , Vesel, A., (2010), The Influence of Water Vapor Plasma Treatment on Specific Properties of Bleached and Mercerized Cotton Fabric, Textile Research Journal, 80 (6), 557–567.
  • Yang, L., Chen, J., Gao, J., (2009), Low temperature argon plasma sterilization effect on Pseudomonas aeruginosa and its mechanisms, Journal of Electrostatics, 67, 646-651.
  • Yin, LL., Chi, WK., Chun, WMY. , Chui, HA., (2009), Objective Measurement of Fabric Properties of the Plasma-Treated Cotton Fabrics Subjected to Cocatalyzed Wrinkle-Resistant Finishing, Journal of Applied Polymer Science, 119, 2875–2884.
  • Peng, S., Gao, Z., Sun, J., Yao, L. , Qiu, Y., (2009), Influence of argon/oxygen atmospheric dielectric barrier discharge treatment on desizing and scouring of poly (vinyl alcohol) on cotton fabrics, Applied Surface Science, 255, 9458–9462.
  • Bhat, NV., Netravali, AN., Gore, AV., Sathianarayanan, MP., Arolkar, GA., Deshmukh, RR., (2007), Surface modification of cotton fabrics using plasma technology, Textile Research Journal, 81(10), 1014–1026.
  • Karahan, H. A., Özdoğan, E., Demir, A., Ayhan, H., & Seventekin, N., (2008), Effects of atmospheric plasma treatment on the dyeability of cotton fabrics by acid dyes, Coloration technology, 124(2), 106-110.
  • Karahan, H. A., Özdoğan, E., Demir, A., Aydin, H., & Seventekin, N, (2009), Effects of atmospheric pressure plasma treatments on certain properties of cotton fabrics, . Fibres & Textiles in Eastern Europe, 17 (2), 19-22.
  • Arik, B., Demir, A., Özdoğan, E., & Gülümser, T., (2011), Effects of Novel Antibacterial Chemicals on Low Temperature Plasma Functionalized Cotton Surface, Journal of Textile & Apparel/Tekstil ve Konfeksiyon, 21(4), 356-363.
  • Peila, R., Vineis, C.,Varesano, A., Ferri, A., (2013), Different methods for β-cyclodextrin/triclosan complexation as antibacterial treatment of cellulose substrates, Cellulose,) 20:2115–2123

Pamuklu Kumaşlarda Antibakteriyel Bitim İşlemi için Atmosferik Plazma ve Kimyasal İşlemlerin Kombinasyonu

Yıl 2017, Cilt: 24 Sayı: 106, 72 - 77, 30.06.2017

Öz

Bu çalışmanın amacı, triklosan esaslı kimyasal ile siklodekstrin esaslı ticari ürün birleşimin plazma modifikasyonu yapılarak ve yapılmayarak pamuklu kumaşlara bağlanmasının incelenmesidir. İşlem gören numuneler SEM analizi ile karakterize edilmiştir. Yıkanmış ve yıkanmamış kumaşların antibakteriyel aktiviteleri AATCC Test Metot 147-1998’e göre değerlendirilmiş ve numunelerin bazı fiziksel özellikleri de incelenmiştir. Triklosan, siklodekstrin ve atmosferik plazma kombinasyonu ile pamuklu kumaşların antibakteriyel aktivitesini 60°C’de 5 yıkamaya kadar koruduğu gözlenmiştir. 

Kaynakça

  • Orhan, M., Kut, D., Gunesoglu, C., (2009), Improving the Antibacterial Activity of Cotton Fabrics Finished with Triclosan by the Use of 1,2,3,4-Butanetetracarboxylic Acid and Citric Acid, Journal of Applied Polymer Science, 111, 1344–1352.
  • Shahidi, S., Ghoranneviss, M. , Moazzenchi, B., (2007), Investigation of Antibacterial Activity on Cotton Fabrics with Cold Plasma in the Presence of a Magnetic Field, Plasma Process. Polymer, 4, 1098–1103.
  • Simoncic, B., Tomsic, B., (2010), Structures of Novel Antimicrobial Agents for Textiles –A Review, Textile Research Journal, 80(16), 1721–1737.
  • Rivera, BMP., (2006), Plasma-Aided Antimicrobial and Insect Repellant Finishing of Cotton, Master Thesis, Raleigh.
  • Kumbasar, E.P.A., Atav, R., Yurdakul, A., (2009), Equalizing effect of β-cyclodextrin on dyeing of polyamide 6,6 woven fabrics with acid dyes, Journal of Applied Polymer Science,103, 2660-2668.
  • Voncina, B., Vivod., V., Chen, T., (2009), Surface Modification of PET Fibers with the Use of β-Cyclodextrin, Journal of Applied Polymer Science, 113, 3891–3895.
  • Bajpai, M., Gupta, P. , Bajpai, S.K., (2010), Silver(I) Ions Loaded Cyclodextrin-Grafted-Cotton Fabric with Excellent Antimicrobial Property, Fibers and Polymers,11(1), 8-13.
  • Hebeish, A., El-Shafei, A., Sharaf, S. , Zaghloul, S., (2011), Novel precursors for green synthesis and application of silver nanoparticles in the realm of cotton finishing, Carbohydrate Polymers, 84, 605–613.
  • Sricharussin, W., Sopajaree, C., Maneerung, T. , Sangsuriya, N., (2009), Modification of cotton fabrics with β-cyclodextrin derivative for aroma finishing, The Jour of The Text Inst,100(8), 682–687.
  • John, MJ. , Anandjiwala, RD., (2011), Surface modification and preparation techniques for textile materials, Woodhead Publishing Limited, Cambridge.
  • Karahan, HA. , Özdoğan, E., (2009), Improvements of Surface Functionality of Cotton Fibers by Atmospheric Plasma Treatment, Fibers and Polymers, 9(1), 21-26.
  • Orhan, M., Kut, D., Guneşoğlu, C., (2007), Use of triclosan as antibacterial agent in textiles, Industrial Journal of Fiber Textile Research, 32, 114-118.
  • Gorjanc, M., Bukošek, V., Gorenšek, M. , Vesel, A., (2010), The Influence of Water Vapor Plasma Treatment on Specific Properties of Bleached and Mercerized Cotton Fabric, Textile Research Journal, 80 (6), 557–567.
  • Yang, L., Chen, J., Gao, J., (2009), Low temperature argon plasma sterilization effect on Pseudomonas aeruginosa and its mechanisms, Journal of Electrostatics, 67, 646-651.
  • Yin, LL., Chi, WK., Chun, WMY. , Chui, HA., (2009), Objective Measurement of Fabric Properties of the Plasma-Treated Cotton Fabrics Subjected to Cocatalyzed Wrinkle-Resistant Finishing, Journal of Applied Polymer Science, 119, 2875–2884.
  • Peng, S., Gao, Z., Sun, J., Yao, L. , Qiu, Y., (2009), Influence of argon/oxygen atmospheric dielectric barrier discharge treatment on desizing and scouring of poly (vinyl alcohol) on cotton fabrics, Applied Surface Science, 255, 9458–9462.
  • Bhat, NV., Netravali, AN., Gore, AV., Sathianarayanan, MP., Arolkar, GA., Deshmukh, RR., (2007), Surface modification of cotton fabrics using plasma technology, Textile Research Journal, 81(10), 1014–1026.
  • Karahan, H. A., Özdoğan, E., Demir, A., Ayhan, H., & Seventekin, N., (2008), Effects of atmospheric plasma treatment on the dyeability of cotton fabrics by acid dyes, Coloration technology, 124(2), 106-110.
  • Karahan, H. A., Özdoğan, E., Demir, A., Aydin, H., & Seventekin, N, (2009), Effects of atmospheric pressure plasma treatments on certain properties of cotton fabrics, . Fibres & Textiles in Eastern Europe, 17 (2), 19-22.
  • Arik, B., Demir, A., Özdoğan, E., & Gülümser, T., (2011), Effects of Novel Antibacterial Chemicals on Low Temperature Plasma Functionalized Cotton Surface, Journal of Textile & Apparel/Tekstil ve Konfeksiyon, 21(4), 356-363.
  • Peila, R., Vineis, C.,Varesano, A., Ferri, A., (2013), Different methods for β-cyclodextrin/triclosan complexation as antibacterial treatment of cellulose substrates, Cellulose,) 20:2115–2123
Toplam 21 adet kaynakça vardır.

Ayrıntılar

Konular Mühendislik
Bölüm Makaleler
Yazarlar

Ebru Bozacı

Buket Arık Bu kişi benim

Aslı Demir Bu kişi benim

Esen Özdoğan Bu kişi benim

Tülay Gülümser Bu kişi benim

Necdet Seventekin Bu kişi benim

Yayımlanma Tarihi 30 Haziran 2017
Yayımlandığı Sayı Yıl 2017 Cilt: 24 Sayı: 106

Kaynak Göster

APA Bozacı, E., Arık, B., Demir, A., Özdoğan, E., vd. (2017). Pamuklu Kumaşlarda Antibakteriyel Bitim İşlemi için Atmosferik Plazma ve Kimyasal İşlemlerin Kombinasyonu. Tekstil Ve Mühendis, 24(106), 72-77.
AMA Bozacı E, Arık B, Demir A, Özdoğan E, Gülümser T, Seventekin N. Pamuklu Kumaşlarda Antibakteriyel Bitim İşlemi için Atmosferik Plazma ve Kimyasal İşlemlerin Kombinasyonu. Tekstil ve Mühendis. Haziran 2017;24(106):72-77.
Chicago Bozacı, Ebru, Buket Arık, Aslı Demir, Esen Özdoğan, Tülay Gülümser, ve Necdet Seventekin. “Pamuklu Kumaşlarda Antibakteriyel Bitim İşlemi için Atmosferik Plazma Ve Kimyasal İşlemlerin Kombinasyonu”. Tekstil Ve Mühendis 24, sy. 106 (Haziran 2017): 72-77.
EndNote Bozacı E, Arık B, Demir A, Özdoğan E, Gülümser T, Seventekin N (01 Haziran 2017) Pamuklu Kumaşlarda Antibakteriyel Bitim İşlemi için Atmosferik Plazma ve Kimyasal İşlemlerin Kombinasyonu. Tekstil ve Mühendis 24 106 72–77.
IEEE E. Bozacı, B. Arık, A. Demir, E. Özdoğan, T. Gülümser, ve N. Seventekin, “Pamuklu Kumaşlarda Antibakteriyel Bitim İşlemi için Atmosferik Plazma ve Kimyasal İşlemlerin Kombinasyonu”, Tekstil ve Mühendis, c. 24, sy. 106, ss. 72–77, 2017.
ISNAD Bozacı, Ebru vd. “Pamuklu Kumaşlarda Antibakteriyel Bitim İşlemi için Atmosferik Plazma Ve Kimyasal İşlemlerin Kombinasyonu”. Tekstil ve Mühendis 24/106 (Haziran 2017), 72-77.
JAMA Bozacı E, Arık B, Demir A, Özdoğan E, Gülümser T, Seventekin N. Pamuklu Kumaşlarda Antibakteriyel Bitim İşlemi için Atmosferik Plazma ve Kimyasal İşlemlerin Kombinasyonu. Tekstil ve Mühendis. 2017;24:72–77.
MLA Bozacı, Ebru vd. “Pamuklu Kumaşlarda Antibakteriyel Bitim İşlemi için Atmosferik Plazma Ve Kimyasal İşlemlerin Kombinasyonu”. Tekstil Ve Mühendis, c. 24, sy. 106, 2017, ss. 72-77.
Vancouver Bozacı E, Arık B, Demir A, Özdoğan E, Gülümser T, Seventekin N. Pamuklu Kumaşlarda Antibakteriyel Bitim İşlemi için Atmosferik Plazma ve Kimyasal İşlemlerin Kombinasyonu. Tekstil ve Mühendis. 2017;24(106):72-7.