Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2023, Cilt: 51 Sayı: 2, 163 - 181, 01.04.2023
https://doi.org/10.15671/hjbc.1127131

Öz

Destekleyen Kurum

Trakya üniversitesi

Proje Numarası

TÜBAP 2018/198

Kaynakça

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  • 3. Y.Ren, T.Tian, L.Jiang, and Y.Guo,Molecules,24(2019) 3749.
  • 4. C. E.Zhou and C. W.Kan,Cellulose, 21(2014) 2951.
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  • 7. L. J.Wilkoff, L.Westbrook, and G. J.Dixon,Appl. Microbiol., 17(1969) 268.
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  • 28. S.Hajji, I.Younes, O.Ghorbel-Bellaaj, R.Hajji, M.Rinaudo, M.Nasri, and K.Jellouli,Int. J.Biol. Macromol., 65(2014) 298.
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  • 33. C.Suitcharit, F.Awae, W.Sengmama, and K.Srikulkit,J. Met. Mater. Miner., 20(2010) 27.
  • 34. X.Chen, Y.Liu, H.Shi, X.Wang, K. Qi, X. Zhou, and J. H. Xin,Text.Res. J., 80 (2010) 2214.
  • 35. J.Vishnu Chandar, S.Shanmugan, P.Murugan, D.Mutharasu, andK.Sudesh,J. Polym. Environ.,25 (2017) 1251.
  • 36. R. Zhong, Q.Zhong, M. Huo, B. Yang, andH. Li, Int. J. Biol. Macromol.,146 (2020) 939 .
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  • 38. Q.Chen, H.Jiang, H.Ye, J.Li, andJ.Huang,J.Carbohydr. Chem., 33(2014) 298.
  • 39. B.Lin, Y.Luo, Z.Teng, B.Zhang, B.Zhou, andQ.Wang,LWT-Food Sci. Technol., 63(2015) 1206.
  • 40. L.Zhang, W.Xia, X.Liu, and W.Zhang,J. Materi. Chem. A ,3 (2015) 331.
  • 41. Y.Xing, X.Li, X.Guo, W.Li, J.Chen, Q.Liu, Q. Xu, Q. Wang, H. Yang, Y. Shui, and X. Bi.,Nanomaterials,10 (2020) 1365.
  • 42. I.Kustiningsih, A.Ridwan, D.Abriyani, M.Syairazy, T.Kurniawan, and D. R.Barleany,Orient. J. Chem.,35(2019) 1132.
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  • 44. V. G. L.Souza, J. R. A.Pires, C.Rodrigues, P. F.Rodrigues, A.Lopes, R. J.Silva, J. Caldeira, M. P. Duarte, F.B. Fernandez, I. M. Coelhoso, andA. L.Fernando,Coatings, 9(2019) 700.
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Chitosan Films Prepared with Low Nanometal Content for Developing Protective Denim Fabrics

Yıl 2023, Cilt: 51 Sayı: 2, 163 - 181, 01.04.2023
https://doi.org/10.15671/hjbc.1127131

Öz

At this study; Chitosan was obtained from crayfish and identified by X-ray diffraction (XRD), molecular weight and elemental analyses. Later, it was coated on fabrics alone and in combination with nano-metal.The protective properties of the coated fabrics was investigated by UV protection and antibacterial analyses. Crayfish chitosan had low crystallinity (72%), low molecular weight (Mw) (11.2 kDa) and low degree of deacetylation (DD) (16%). When used together, nano-TiO2 reduced the UVprotection of the crayfish chitosan in both dyed and undyed denim fabrics.Chitosan+Nano-Ag coated fabric had the highest antibacterial activity (Antibacterial activity value (A): 4.27) against Staphylococcus aureus while chitosan+Nano-TiO2 coated fabric did not show any antibacterial efficiency (A: 1.89). Afterwashed, the chitosan coated and the chitosan+Nano-Ag coated fabrics retained their antibacterial efficiency.

Proje Numarası

TÜBAP 2018/198

Kaynakça

  • 1. T. Bedez Ute,J. Text. Inst.,110 (2019)179-185.
  • 2. C.Casadidio, D. V.Peregrina, M. R.Gigliobianco, S.Deng, R.Censi,and P.Di Martino,Mar. Drugs,17 (2019) 369.
  • 3. Y.Ren, T.Tian, L.Jiang, and Y.Guo,Molecules,24(2019) 3749.
  • 4. C. E.Zhou and C. W.Kan,Cellulose, 21(2014) 2951.
  • 5. M.Thanavel, S. K.Kadam, S. P.Biradar, S. P.Govindwar, B. H.Jeon, and S. K.Sadasivam,SN App. Sci.,1(2019) 1.
  • 6. G.Confederat, C. G.Tuchilus, M.Dragan, M.Sha’at, and O. M.Dragostin,Molecules, 26(2021) 3694.
  • 7. L. J.Wilkoff, L.Westbrook, and G. J.Dixon,Appl. Microbiol., 17(1969) 268.
  • 8. R. C. F.Cheung, T. B.Ng, J. H.Wong, and W. Y.Chan,Mar. Drugs,13(2015) 5156.
  • 9. M. C.Cervellon, M. J.Rinaldi, and A. S.Wernerfelt,In Proceedings of 10th International Marketing Trends Conference. (pp. 20-21). Paris: ESCP Europe. (2011).
  • 10. I.Armentano, N. Bitinis, E. Fortunati, S. Mattioli, N. Rescignano, R. Verdejo., M.A. Lopez-Manchado, and J.M. Kenny, Prog. in Polym. Sci., 38(2013) 1720.
  • 11. S. Erdogan,Trak. Univ. J. of Nat. Sci.,21(2020) 21.
  • 12. A.Belay, M. Mekuria, and G. Adam, Nanomater.Nanotechnol.,10 (2020) 1.
  • 13. X.Zhang, Z.Zhang, W.Wu, J.Yang, andQ.Yang,Bioprocess and Biosyst. Eng.,44(2021) 1193.
  • 14. Ş. S.Uğur, M.Sarıışık, and A. H.Aktaş,Fibers and Polym., 12 (2011) 190.
  • 15. S.Erdogan andM. Kaya,Int. J.Biol.Macromol.,89(2016) 118.
  • 16. W.Wei, S.Bo, S.Li, andW.Qin,Int. J. Biol. Macromol., 13(1991) 281.
  • 17. TS EN ISO 105-J03: 2010. https://www.en-standard.eu/une-en-iso-105-j03-2010-textiles-tests-for-colour-fastness-part-j03-calculation-of-colour-differences-iso-105-j03-2009/.(Accessed on September 10, 2021).
  • 18. M. D.Fairchild andR. S.Berns,Color Res. & Appl.,18(1993) 178.
  • 19. AATCC 183: 2014. https://standards.globalspec.com/std/14298277/AATCC%20183 (accessed on September 10, 2021).
  • 20. JIS L 1902:2015. Japanese Industry Standard for Testing Antibacterial Activity and Efficiency in Textile Products. Japanese Standards Association, Tokyo, Japan.
  • 21. ISO 6330:2012.https://www.iso.org/obp/ui#iso:std:iso:6330:ed-3:v1:en. (Accessed on September 10, 2021).
  • 22. N.Cartier, A.Domard, andH.Chanzy,Int. J. Biol. Macromol.,12(1990) 289.
  • 23. Y.Zhang, C.Xue, Y.Xue, R.Gao, and X.Zhang,Carbohydr. Res., 340(2005) 1914.
  • 24. R. S. C. M.De Queiroz Antonino, B. R. P.Lia Fook, V. A.de Oliveira Lima, R. Í.de Farias Rached, E. P.NascimentoLima, R. J.da Silva Lima, C. A. P.Covas,and M. V. Lia Fook,Mar. Drugs,15(2017) 141.
  • 25. I.Aranaz, M.Mengíbar, R.Harris, I.Paños, B.Miralles, N.Acosta, G. Galed, and á. Heras,Curr. Chem. Biol., 3(2009) 203.
  • 26. A.Kucukgulmez, M.Celik, Y.Yanar, D.Sen, H.Polat, and A. E.Kadak,Food Chem.,126 (2011) 1144.
  • 27. H. N.Cuong, N. C.Minh, N.Van Hoa, and T. S.Trung,Int. J. Biol. Macromol., 93(2016) 442 .
  • 28. S.Hajji, I.Younes, O.Ghorbel-Bellaaj, R.Hajji, M.Rinaudo, M.Nasri, and K.Jellouli,Int. J.Biol. Macromol., 65(2014) 298.
  • 29. G. U. O.Tsai,W. H. Su, H. C.Chen, and C. L.Pan,Fish. Sci.,68(2002) 170.
  • 30. J.Kumirska, M. X.Weinhold, J.Thöming, and P. Stepnowski,Polymers, 3 (2011) 1875.
  • 31. H. K.Ashaduzzaman, M.Rahman, A.Taher, and S.Mia,J. Textile Sci. Eng., 6.(2016) 2.
  • 32. Y.Shin andD. I.Yoo, J. Korean Fiber Soc.,32 (1995) 520.
  • 33. C.Suitcharit, F.Awae, W.Sengmama, and K.Srikulkit,J. Met. Mater. Miner., 20(2010) 27.
  • 34. X.Chen, Y.Liu, H.Shi, X.Wang, K. Qi, X. Zhou, and J. H. Xin,Text.Res. J., 80 (2010) 2214.
  • 35. J.Vishnu Chandar, S.Shanmugan, P.Murugan, D.Mutharasu, andK.Sudesh,J. Polym. Environ.,25 (2017) 1251.
  • 36. R. Zhong, Q.Zhong, M. Huo, B. Yang, andH. Li, Int. J. Biol. Macromol.,146 (2020) 939 .
  • 37. X.Luo andL.Li,Text. Res. J.,90,125(2020).
  • 38. Q.Chen, H.Jiang, H.Ye, J.Li, andJ.Huang,J.Carbohydr. Chem., 33(2014) 298.
  • 39. B.Lin, Y.Luo, Z.Teng, B.Zhang, B.Zhou, andQ.Wang,LWT-Food Sci. Technol., 63(2015) 1206.
  • 40. L.Zhang, W.Xia, X.Liu, and W.Zhang,J. Materi. Chem. A ,3 (2015) 331.
  • 41. Y.Xing, X.Li, X.Guo, W.Li, J.Chen, Q.Liu, Q. Xu, Q. Wang, H. Yang, Y. Shui, and X. Bi.,Nanomaterials,10 (2020) 1365.
  • 42. I.Kustiningsih, A.Ridwan, D.Abriyani, M.Syairazy, T.Kurniawan, and D. R.Barleany,Orient. J. Chem.,35(2019) 1132.
  • 43. L. M.Anaya-Esparza, J. M.Ruvalcaba-Gómez, C. I.Maytorena-Verdugo, N.González-Silva, R.Romero-Toledo, S.Aguilera-Aguirre, A. Perez-Larios, and E. Montalvo-Gonzalez,Materials,13 (2020) 811.
  • 44. V. G. L.Souza, J. R. A.Pires, C.Rodrigues, P. F.Rodrigues, A.Lopes, R. J.Silva, J. Caldeira, M. P. Duarte, F.B. Fernandez, I. M. Coelhoso, andA. L.Fernando,Coatings, 9(2019) 700.
  • 45. J.Petrick, M.Ibadurrohman, andSalamet,IOP Conf. Ser.: Mater. Sci. Eng. 722, 012030 (2020).
  • 46. S.Govindan, E. A. K.Nivethaa, R.Saravanan, V.Narayanan, and A.Stephen,Applied Nano Sci. , 2 (2012) 299.
  • 47. X.Zhang, G.Xiao, Y.Wang, Y. Zhao, H. Su, and T. Tan,Carbohydr. Polym., 169 (2017) 101.
  • 48. S.Li, T.Zhu, J.Huang, Q.Guo, G.Chen,and Y.Lai,Int. J. Nanomed.,12 (2017) 2593.
  • 49. R.Timothy andA. J.Arul Pragasam,Fibres& Tex. East. Eur.,1(2018) 113.
  • 50. A. K. Sarkar,BMC Dermatol., 4(2004) 1.
  • 51. Y.Zhou, Z. Y.Yang, and R. C.Tang,Mater. Sci. Eng. C., 67(2016) 336.
  • 52. H.Yang, S.Zhu, and N.Pan,J. Appl. Polym.Sci.92(2004) 3201.
  • 53.J. Li andS.Zhuang,Eur. Polym. J.138 (2020) 109984.
  • 54. M.Kong, X. G.Chen, Y. P.Xue, C. S.Liu, L. J.Yu, Q. X.Ji, Y. P. Xue, D. S. Cha, and H. J. Park,Front. Mater. Sci. China, 2 (2008) 214.
  • 55. H. M.Iqbal,Suppl-2, M4, The Open Virol. J.,12(2018) 69.
  • 56. S. C.Park, J. P.Nam, J. H.Kim, Y. M.Kim, J. W. Nah, and M. K. Jang,Int. J. Mol. Sci., 16 (2015)7995 .
  • 57. C.Wiegand, M.Abel, P.Ruth,P.Elsner, and U. C.Hipler,J. Mater. Sci.: Mater. in med.,26 (2015) 1.
  • 58. S.Zhang, Y.Tang, and B.Vlahovic,Nanoscale Res. Lett., 11(2016)1.
  • 59. J. R.Morones, J. L.Elechiguerra,A.Camacho, K.Holt, J. B.Kouri, J. T.Ramírez, and M. J.Yacaman,Nanotechnology, 16(2005) 2346.
  • 60. V. T.Nguyen, V. T.Vu, T. H.Nguyen, T. A.Nguyen, V. K.Tran, and P.Nguyen-Tri,J. Compos. Sci. 3 (2019) 61.
  • 61. H.Zhang andS. H.Neau,Biomaterials, 22(2001) 1653.
  • 62. Z.Zhang, L.Chen, J.Ji, Y.Huang, and D.Chen,Text. Res. J.,73 (2003)1103.
Toplam 62 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Research Article
Yazarlar

Sevil Erdoğan 0000-0001-9148-911X

Nilgun Becenen 0000-0003-4422-8552

Proje Numarası TÜBAP 2018/198
Yayımlanma Tarihi 1 Nisan 2023
Kabul Tarihi 2 Ocak 2023
Yayımlandığı Sayı Yıl 2023 Cilt: 51 Sayı: 2

Kaynak Göster

APA Erdoğan, S., & Becenen, N. (2023). Chitosan Films Prepared with Low Nanometal Content for Developing Protective Denim Fabrics. Hacettepe Journal of Biology and Chemistry, 51(2), 163-181. https://doi.org/10.15671/hjbc.1127131
AMA Erdoğan S, Becenen N. Chitosan Films Prepared with Low Nanometal Content for Developing Protective Denim Fabrics. HJBC. Nisan 2023;51(2):163-181. doi:10.15671/hjbc.1127131
Chicago Erdoğan, Sevil, ve Nilgun Becenen. “Chitosan Films Prepared With Low Nanometal Content for Developing Protective Denim Fabrics”. Hacettepe Journal of Biology and Chemistry 51, sy. 2 (Nisan 2023): 163-81. https://doi.org/10.15671/hjbc.1127131.
EndNote Erdoğan S, Becenen N (01 Nisan 2023) Chitosan Films Prepared with Low Nanometal Content for Developing Protective Denim Fabrics. Hacettepe Journal of Biology and Chemistry 51 2 163–181.
IEEE S. Erdoğan ve N. Becenen, “Chitosan Films Prepared with Low Nanometal Content for Developing Protective Denim Fabrics”, HJBC, c. 51, sy. 2, ss. 163–181, 2023, doi: 10.15671/hjbc.1127131.
ISNAD Erdoğan, Sevil - Becenen, Nilgun. “Chitosan Films Prepared With Low Nanometal Content for Developing Protective Denim Fabrics”. Hacettepe Journal of Biology and Chemistry 51/2 (Nisan 2023), 163-181. https://doi.org/10.15671/hjbc.1127131.
JAMA Erdoğan S, Becenen N. Chitosan Films Prepared with Low Nanometal Content for Developing Protective Denim Fabrics. HJBC. 2023;51:163–181.
MLA Erdoğan, Sevil ve Nilgun Becenen. “Chitosan Films Prepared With Low Nanometal Content for Developing Protective Denim Fabrics”. Hacettepe Journal of Biology and Chemistry, c. 51, sy. 2, 2023, ss. 163-81, doi:10.15671/hjbc.1127131.
Vancouver Erdoğan S, Becenen N. Chitosan Films Prepared with Low Nanometal Content for Developing Protective Denim Fabrics. HJBC. 2023;51(2):163-81.

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