Year 2023,
Volume: 51 Issue: 2, 163 - 181, 01.04.2023
Sevil Erdoğan
,
Nilgun Becenen
Supporting Institution
Trakya üniversitesi
Project Number
TÜBAP 2018/198
References
- 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.
Chitosan Films Prepared with Low Nanometal Content for Developing Protective Denim Fabrics
Year 2023,
Volume: 51 Issue: 2, 163 - 181, 01.04.2023
Sevil Erdoğan
,
Nilgun Becenen
Abstract
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.
Project Number
TÜBAP 2018/198
References
- 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.