Evaluation of crosslinking type and antibacterial activities of copper oxide loaded cotton textile fabrics

Aslıhan Koruyucu

Araştırma Makalesi

Yıl 2018, Cilt: 2 Sayı: 3, 278 - 281, 15.12.2018

Aslıhan Koruyucu

Öz

Kaynakça

1. Alt V, Bechert T,Steinrcke P, Wagener M, Seidel P, Dingeldein E, Domann U, Schnettler R, An in vitro assessment of the antibacterial propperties and cytotoxicity of nanoparticulate silver bone cement, Biomat Biomater, 2004. 25: 4383-4391.
2. Furno F, Morley KS,Wong B, Sharp BL, Arnold PL, Howdle SM, Bayston R, Brown PD, Winship PD, Reid H, Silver nanoparticles and polymeric medical devices: a new approach to prevention of infection, J Antimicrob Chemother, 2004. 54: 1019-1024.
3. Jeong,SH, Yeo SY, Yi SC, The effect of filter particle size on the antibacterial properties of compounded polymer/silver fibers, J Mater Sci, 2005. 40: 5407-5411.
4. Chou WL, Yu DG, Yang MC, The preparation and characterization of silver-loading cellulose acetate hollow fiber membrane for water treatment, Poly Adv Technol, 2005. 16: 600-607.
5. Sambhy V, Mac Bride MM, Peterson BR, Sen A, Silver bromidenanoparticle/polymer composites:dual action tunable antimicrobial materials, J Am Chem Soc, 2006. 128: 9798-9808.
6. Stoimenov PK,Klinger RL, Marchin GL, Klabunde K, Metal oxide nanoparticles as bactericidal agents,Lang, 2002. 18: 6679-6686.
7. Hsiao MT, Chen SF,Shieh DB, Yeh CS,One-pot synthesis of hollow Au 3Cu 1 spherical –like and biomineral botallackite Cu-2(OH)(3)Cl flowerlike architectures exhibiting antimicrobial activity, J Phys Chem B, 2006. 110: 205-210.
8. R.Garcia-Contreras, L. Argueta-Figuerona, C.Mejfa-Rubalcava,R.Jimenez-Martinez,S.Cuevas-Guajardo, P.A,Sanchez-Reyna, H.Mendieta-Zeron, Int. Dent.J., 2011. 61: 297-301.
9. Morones JR, Elechiguerra JL, Camacho A, Holt K, Kouri JB, Ramirez JT, Yacaman MJ, The bactericidal effect of silver nanoparticles, Nanotechnol, 2005. 16: 2346-2353.
10. A.Esteban-Cubillo, C.Pecharroman, E.Aguilar, J.Santaren,J.S,Moya, J.Mater.Sci.41(2006)5208-5212.
11. M.Raffi, S.Mehrwan,T.M.Bhatti,J.I.Akhter, A, Hameed, W.Yawar,M.M. ul Hasan, Ann. Microbiol, 2010. 60: 75-80.
12. N,Cioffi,L.Torsi, N.Ditaranto,G.Tantillo,L.Ghibelli, L. Sabbatini, T.Bleve-Zacheo, M. D Alessio, P.G.Zambonin, E. Traversa, Chem.Mater, 2005. 17: 5255-5262.
13. A.K.Chatterjee, R.K.Sarkar, A.P.Chattopadhyay, P.Aich , R.Chakraborty, T.Basu, A simple robust method for synthesis of metallic copper nanoparticles of high antibacterial potency against E. coli. Nanotechnology, 2012. 23(8): 085103.
14. J.Gabbay, G.Borkow,J.Mishal, E.Magen, R.Zatcoff, Y.Schemer-Avni, J Ind.Text, 2006. 35: p. 323.
15. G.Ren,D.Hu, E.W.C.Cheng, M.A.Vargas –Reus,P.Reip,R.P.Allaker, Int.J.Antimicrob Agents, 2009. 33: 587-590.
16. G.Borkow, J.Gabbay,R.Dardik, A.I.Eidelman, Y.Lavie,Y.Grunfeld,S.Ikher,M,Huszar, R.C.Zatcoff, M,Marikovsky, Wound Repair Regen, 2010. 18: 266-275.
17. G.Borkow, S.S.Zhou, T.Page, J.Gabbay, Plos One, 2010. 5: p. 11295.
18. S.Jadhav, S.Gaiikwad, M.Nimse, A.Rajbhoj, J Clust. Sci., 2011. 22: 121-129.
19. Ruparelia JR Chatterjee AK,Duttagupta SP,Mukherji S. Strain specifity in antimicrobial activity of silver and copper nanoparticles.Acta Biomater, 2008. 4: 707-716.
20. Yoon KY, Hoon Byeon J, Park JH, Hwang J. Susceptibility constants of Escherichia coli and Bacillus subtilis to silver and copper nanoparticles. Science of the Total Environment, 2007. 373(2-3): 572-575.

Evaluation of crosslinking type and antibacterial activities of copper oxide loaded cotton textile fabrics

Yıl 2018, Cilt: 2 Sayı: 3, 278 - 281, 15.12.2018

Aslıhan Koruyucu

Öz

In the current study, the efficacy of Cu(I)O micro and two different cross
linkers as a antibacterial metal oxides on textile substrates versus
Staphylococcus aureus and Escherichia coli was examined. In particular,
bacterial inhibition relationship of micro Cu (I) O with two different cross linkers
needed to exhibit effective bacterial action was studied. On textile substrates
such as 100%cotton, there was 89,44-94,42% rebate in bacterial counts. Effectiveness
of the antibacterial action was retained
after ten and twenty cycles.

Anahtar Kelimeler

Cu(I)oxide, Cotton fabric antibacterial, Metal oxide, Staphylococcus aureus, Escherichia coli

Kaynakça

1. Alt V, Bechert T,Steinrcke P, Wagener M, Seidel P, Dingeldein E, Domann U, Schnettler R, An in vitro assessment of the antibacterial propperties and cytotoxicity of nanoparticulate silver bone cement, Biomat Biomater, 2004. 25: 4383-4391.
2. Furno F, Morley KS,Wong B, Sharp BL, Arnold PL, Howdle SM, Bayston R, Brown PD, Winship PD, Reid H, Silver nanoparticles and polymeric medical devices: a new approach to prevention of infection, J Antimicrob Chemother, 2004. 54: 1019-1024.
3. Jeong,SH, Yeo SY, Yi SC, The effect of filter particle size on the antibacterial properties of compounded polymer/silver fibers, J Mater Sci, 2005. 40: 5407-5411.
4. Chou WL, Yu DG, Yang MC, The preparation and characterization of silver-loading cellulose acetate hollow fiber membrane for water treatment, Poly Adv Technol, 2005. 16: 600-607.
5. Sambhy V, Mac Bride MM, Peterson BR, Sen A, Silver bromidenanoparticle/polymer composites:dual action tunable antimicrobial materials, J Am Chem Soc, 2006. 128: 9798-9808.
6. Stoimenov PK,Klinger RL, Marchin GL, Klabunde K, Metal oxide nanoparticles as bactericidal agents,Lang, 2002. 18: 6679-6686.
7. Hsiao MT, Chen SF,Shieh DB, Yeh CS,One-pot synthesis of hollow Au 3Cu 1 spherical –like and biomineral botallackite Cu-2(OH)(3)Cl flowerlike architectures exhibiting antimicrobial activity, J Phys Chem B, 2006. 110: 205-210.
8. R.Garcia-Contreras, L. Argueta-Figuerona, C.Mejfa-Rubalcava,R.Jimenez-Martinez,S.Cuevas-Guajardo, P.A,Sanchez-Reyna, H.Mendieta-Zeron, Int. Dent.J., 2011. 61: 297-301.
9. Morones JR, Elechiguerra JL, Camacho A, Holt K, Kouri JB, Ramirez JT, Yacaman MJ, The bactericidal effect of silver nanoparticles, Nanotechnol, 2005. 16: 2346-2353.
10. A.Esteban-Cubillo, C.Pecharroman, E.Aguilar, J.Santaren,J.S,Moya, J.Mater.Sci.41(2006)5208-5212.
11. M.Raffi, S.Mehrwan,T.M.Bhatti,J.I.Akhter, A, Hameed, W.Yawar,M.M. ul Hasan, Ann. Microbiol, 2010. 60: 75-80.
12. N,Cioffi,L.Torsi, N.Ditaranto,G.Tantillo,L.Ghibelli, L. Sabbatini, T.Bleve-Zacheo, M. D Alessio, P.G.Zambonin, E. Traversa, Chem.Mater, 2005. 17: 5255-5262.
13. A.K.Chatterjee, R.K.Sarkar, A.P.Chattopadhyay, P.Aich , R.Chakraborty, T.Basu, A simple robust method for synthesis of metallic copper nanoparticles of high antibacterial potency against E. coli. Nanotechnology, 2012. 23(8): 085103.
14. J.Gabbay, G.Borkow,J.Mishal, E.Magen, R.Zatcoff, Y.Schemer-Avni, J Ind.Text, 2006. 35: p. 323.
15. G.Ren,D.Hu, E.W.C.Cheng, M.A.Vargas –Reus,P.Reip,R.P.Allaker, Int.J.Antimicrob Agents, 2009. 33: 587-590.
16. G.Borkow, J.Gabbay,R.Dardik, A.I.Eidelman, Y.Lavie,Y.Grunfeld,S.Ikher,M,Huszar, R.C.Zatcoff, M,Marikovsky, Wound Repair Regen, 2010. 18: 266-275.
17. G.Borkow, S.S.Zhou, T.Page, J.Gabbay, Plos One, 2010. 5: p. 11295.
18. S.Jadhav, S.Gaiikwad, M.Nimse, A.Rajbhoj, J Clust. Sci., 2011. 22: 121-129.
19. Ruparelia JR Chatterjee AK,Duttagupta SP,Mukherji S. Strain specifity in antimicrobial activity of silver and copper nanoparticles.Acta Biomater, 2008. 4: 707-716.
20. Yoon KY, Hoon Byeon J, Park JH, Hwang J. Susceptibility constants of Escherichia coli and Bacillus subtilis to silver and copper nanoparticles. Science of the Total Environment, 2007. 373(2-3): 572-575.

Toplam 20 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Bölüm	Research Articles
Yazarlar	Aslıhan Koruyucu
Yayımlanma Tarihi	15 Aralık 2018
Gönderilme Tarihi	19 Mart 2018
Kabul Tarihi	15 Eylül 2018
Yayımlandığı Sayı	Yıl 2018 Cilt: 2 Sayı: 3

Kaynak Göster

APA	Koruyucu, A. (2018). Evaluation of crosslinking type and antibacterial activities of copper oxide loaded cotton textile fabrics. International Advanced Researches and Engineering Journal, 2(3), 278-281.
AMA	Koruyucu A. Evaluation of crosslinking type and antibacterial activities of copper oxide loaded cotton textile fabrics. Int. Adv. Res. Eng. J. Aralık 2018;2(3):278-281.
Chicago	Koruyucu, Aslıhan. “Evaluation of Crosslinking Type and Antibacterial Activities of Copper Oxide Loaded Cotton Textile Fabrics”. International Advanced Researches and Engineering Journal 2, sy. 3 (Aralık 2018): 278-81.
EndNote	Koruyucu A (01 Aralık 2018) Evaluation of crosslinking type and antibacterial activities of copper oxide loaded cotton textile fabrics. International Advanced Researches and Engineering Journal 2 3 278–281.
IEEE	A. Koruyucu, “Evaluation of crosslinking type and antibacterial activities of copper oxide loaded cotton textile fabrics”, Int. Adv. Res. Eng. J., c. 2, sy. 3, ss. 278–281, 2018.
ISNAD	Koruyucu, Aslıhan. “Evaluation of Crosslinking Type and Antibacterial Activities of Copper Oxide Loaded Cotton Textile Fabrics”. International Advanced Researches and Engineering Journal 2/3 (Aralık 2018), 278-281.
JAMA	Koruyucu A. Evaluation of crosslinking type and antibacterial activities of copper oxide loaded cotton textile fabrics. Int. Adv. Res. Eng. J. 2018;2:278–281.
MLA	Koruyucu, Aslıhan. “Evaluation of Crosslinking Type and Antibacterial Activities of Copper Oxide Loaded Cotton Textile Fabrics”. International Advanced Researches and Engineering Journal, c. 2, sy. 3, 2018, ss. 278-81.
Vancouver	Koruyucu A. Evaluation of crosslinking type and antibacterial activities of copper oxide loaded cotton textile fabrics. Int. Adv. Res. Eng. J. 2018;2(3):278-81.

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