Tytuł artykułu
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
In spite of some beneficial effects of ultraviolet (UV) radiation on skin, radiation can cause sunburn, skin aging, allergies and even skin cancer. Textiles can provide effective protection against such damage of UV radiation. Unlike cosmetics, using textiles protecting the skin or at least enhancing protection has only recently been researched. The design and modification of fabrics leading to a high protection against UV radiation is a relatively new application. It is very important to consider the kind of textile to be used, most of the garments worn during summer, the time of highest exposition, are light and colourless materials and therefore provide the lowest protection. We report the synthesis and characterization of nanosized zinc oxide particles known to highly absorb UV light. Sol-gel based inorganic-organic hybrid polymers were modified with these particles and were applied to cellulosic cotton (100%) and cotton/polyester (65/35%) fabrics. These modified inorganicorganic hybrids polymers were based on 3-glycidyloxypropyltrimethoxysilane (GPTMS). Complete finishing sol prepared in this work has remarked long stability for further processing. The effectiveness of the novel finishing was determined by UV-Vis spectroscopy and by evaluation of the ultraviolet protection factor (UPF). The influences of the finishing for some general textile properties as e.g. tensile strength, elongation, air permeability, degree of whiteness, wear-resistance, stiffness as well as the durability of the treatments were investigated.
Czasopismo
Rocznik
Tom
Strony
114--120
Opis fizyczny
Bibliogr. 41 poz., il.
Twórcy
autor
- German Textile Research Centre North-West e.V. (DTNW), D-47798 Krefeld, Germany
- National Research Center, Textile Research Division, Dokki, Cairo, Egypt
autor
- German Textile Research Centre North-West e.V. (DTNW), D-47798 Krefeld, Germany
autor
- German Textile Research Centre North-West e.V. (DTNW), D-47798 Krefeld, Germany
autor
- Faculty of Textile Technology, University of Zagreb, Croatia
autor
- Faculty of Textile Technology, University of Zagreb, Croatia
Bibliografia
- 1. Sharma D. K., Singh M., “Effect of Dyeing and Finishing Treatments on Sun Protection of Woven fabrics” A study Colourage Annual 69 (2001).
- 2. Algaba, I., A. Riva, and P. C. Crews, AATCC Review, 4, 26-31, 2004.
- 3. Menter, J. M. and K. l. Hatch, Current Problems in Dermatology, 31, 51-63, 2003.
- 4. Reinert G. and F. Fuso, Review of Progress in Coloration, 27, 32-41, 1997.
- 5. Hilfiker, R., et al., Textile Res. J., 66, 61-70, 1996.
- 6. Veatch, K. D. and B. M. Gatewood, AATCC Review, 2, 47-51, 2002.
- 7. Shenai V. A., Colourage, , 63-81, 1999.
- 8. Crews, P. C. and Y. Zhou, AATCC Review, 4, 41-43, 2004.
- 9. Bednarska K, Wachowicz B, Buczynski A, UVB – induced generation of free radicals in blood platelets. J Photochem Photobiol B: Biology 55, 109-112, 2000.
- 10. Takeshita K, Chi C, Hirata H, Ono M, Ozawa T In vivo generation of free radicals in the skin of live mice under ultraviolet light, measured by L-band EPR spectroscopy. Free Radic Biol Med 40, 876-885, 2006.
- 11. Liebler DC The poisons within: application of toxicity mechanisms to fundamental disease processes. Chem Res Toxicol 19, 610-613, 2006.
- 12. AATCC Technical Manual, 77, 341-343, 2002.
- 13. Standards Association of Australia, Standard AS/NZS 43399; Australian/New Zealand Standards, Homebush, Australia, 1996.
- 14. Algaba, I., A. Riva, Coloration Technology, 118, 52-58, 2002.
- 15. Reinert, G., et al., Textile Chem. and Color., 29, 36-42, 1997.
- 16. Grancariæ AM, Tarbuk AEDA Modified PET Fabric Treated with Activated Natural Zeolite Nanoparticles. Materials Technology 24, 58-63, (2009).
- 17. Grancariæ AM, Tarbuk A, Dumitrescu I, Bišæan J UV Protection of Pretreated Cotton - Influence of FWA’s Fluorescence. AATCC Review 6, 406, 2006.
- 18. Grancariæ AM, Markoviæ L, Tarbuk A., Active Multifunctional Cotton Treated with Zeolite Nanoparticles. Tekstil 56, 543-553, 2007.
- 19. Lee HJ, Yeo SY, Jeong SH., Antibacterial effect of nanosized silver colloidal solution on textile fabrics. J Mater Sci 38, 2199-2204, 2003.
- 20. Xin JH, Daoud WA, Kong YY., A new approach to UV-blocking treatment for cotton fabrics. Text Res J 74, 97-10, 2004.
- 21. Fei B, Deng Z, Xin JH, Zhang Y, Pang G., Room temperaturesynthesis of rutile nanorods and their applications on cloth. Nanotechnology 17, 1927-1931, 2006.
- 22. Qi K, Chen X, Liu Y, Xin JH, Mak CL, Daoud WA., Facile preparation of anatase/SiO2 spherical nanocomposites and their application in self cleaning textiles.J Mater Chem17, 3504-3508, 2007.
- 23. Wang RH, Xin JH, Tao XM, Daoud WA., ZnO nanorods grown on cotton fabrics at low temperature. Chem Phys Lett 398, 250-255, 2004.
- 24. Baglioni P, Dei L, Fratoni L, Lo Nostro P, Moroni M., Preparation of nano- and micro-particles of group II and transition metals oxides and hydroxides and their used in the ceramic, textile and paper industries. Patent WO2003082742 2003.
- 25. Wang RH, Xin JH, Tao XM., UV-blocking property of dumbbell- shaped ZnO crystallites on cotton fabrics. Inorg Chem 44, 3926-3930, 2005.
- 26. Vigneshwaran N, Kumar S, Kathe AA, Varadarajan PV, Prasad V., Functional finishing of cotton fabrics using zinc oxide-soluble starch nanocomposites. Nanotechnology 17, 5087-5095, 2006.
- 27. Riva A, Algaba IM, Pepio ́ M., Action of a finishing product in the improvement of the ultraviolet protection provided by cotton fabrics. Modelisation of the effect. Cellulose 13, 697-704, 2006.
- 28. Scalia S, Tursilli R, Bianchi A, Lo Nostro P, Bocci E, Ridi F, Baglioni P., Incorporation of the sunscreen agent, octylmethocycinnamate in a cellulosic fabric grafted with b-cyclodextrin. Int J Pharm 308, 155-159, 2006.
- 29. Yadav A, Prasad V, Kathe AA, Raj S, Yadav D, Sundaramoorthy C, Vigneshwaran N., Functional finishing in cotton fabrics using zinc oxide nanoparticles. Bull Mater Sci 29, 641-645, 2006.
- 30. Turkoglu M, Yener S., Design and in vivo evaluation of ultrafine inorganic-oxide-containing-sunscreen formulations. Int J Cosmet Sci 19,193 - 201, 997.
- 31. Pan ZW, Dai ZR, Wang ZL., Nanobelts of semiconducting oxides. Science 291, 1947-1949, 2001.
- 32. Arnold MS, Avouris P, Pan ZW, Wang ZL., Field-Effect transistors based on single semiconducting oxide nanobelts. J Phys Chem B 107, 659- 663, 2003.
- 33. Sawai J, Quantitative evaluation of antibacterial activities of metallic oxide powders (ZnO, MgO and CaO) by conductimetric assay. J Microbiol Methods 54, 177-182, 2003.
- 34. Xiong M, Gu G, You B, Wu L., Preparation and characterization of poly(styrene butylacrylate) latex/nano-ZnO nanocomposites. J Appl Polym Sci., 90, 1923-1931, 2003.
- 35. Tang E, Cheng G, Pang X, Ma X, Xing F., Synthesis of nano-ZnO/poly(methylmethacrylate) composite microsphere through emulsion polymerization and its UVshielding property. Colloid Polym Sci 284, 422- 428, 2006.
- 36. Guo L, Yang S, Yang C, Yu P, Wang J, Ge W, Wong GKL., Synthesis and characterization of poly(vinylpyrrolidone)-modified zinc oxide nanoparticles. Chem Mater 12, 2268-2274 2000
- 37. Kwon YJ, Kim KH, Lim CS, Shim KB., Characterization of ZnO nanopowders synthesized by the polymerized complex method via an organochemical route. J Ceramic Proc Res 3, 146-149, 2002.
- 38. Wang Y, Ma C, Sun X, Li H., Preparation of nanocrystalline metal oxide powders with the surfactant mediated method. Inorg Chem Comm 5, 751-755, 2002.
- 39. Liufu S, Xiao H, Li Y (2004) Investigation of PEG adsorption on the surface of zinc oxide nanoparticles. Powder Technol 145:20-24.
- 40.L: Spanhel and M: A: Anderson, J: Am. Chem. Soc., 113, 2826, 1991.
- 41.B. Mahltig, T. Textor, Nanosols & Textiles, World Scientific Publishing Co, Singapore, 2008.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4fc4d4b7-5044-4bda-b955-045cfad99124