Selected applications of nanotechnology in textiles

Wong, Y. W. H.; Yuen, C. W. M.; Leung, M. Y. S.; Ku, S. K. A.; Lam, H. L. I.

Artykuł - szczegóły

Tytuł artykułu

Selected applications of nanotechnology in textiles

Autorzy

Wong Y. W. H. , Yuen C. W. M. , Leung M. Y. S. , Ku S. K. A. , Lam H. L. I.

Wybrane pełne teksty z tego czasopisma

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

The use of nanotechnology in the textile industry has increased rapidly due to its unique and valuable properties. The present status of nanotechnology use in textiles is reviewed, with an emphasis on improving various properties of textiles.

Słowa kluczowe

nanotechnology water repellence UV protection antibacteria antistatic wrinkle resistance

nanotechnologia wodoodporność ochrona przed promieniowaniem UV antybakteryjność antystatyczność

Wydawca

Lodz University of Technology, Faculty of Material Technologies and Textile Design

Czasopismo

Autex Research Journal

Rocznik

2006

Tom

Vol. 6, no. 1

Strony

1--8

Opis fizyczny

Bibliogr. 33 poz.

Twórcy

autor

Wong Y. W. H.

03902062r@polyu.edu.hk

nstitute of Textiles and Clothing, The Hong Kong Polytechnic University, Hong Kong

autor

Yuen C. W. M.

nstitute of Textiles and Clothing, The Hong Kong Polytechnic University, Hong Kong

autor

Leung M. Y. S.

nstitute of Textiles and Clothing, The Hong Kong Polytechnic University, Hong Kong

autor

Ku S. K. A.

nstitute of Textiles and Clothing, The Hong Kong Polytechnic University, Hong Kong

autor

Lam H. L. I.

Specialized Technology Resources (H.K.) Ltd.

Bibliografia

1. Russell, E., Nanotechnologies and the shrinking world of textiles, Textile Horizons, 2002. 9/10: p. 7-9.
2. Cramer, Dean, R., Ponomarenko, Anatolyevna E., Laurent, S., and Burckett, J.C.T.R., Method of applying nanoparticles, U.S. Pat. No: 6,645,569, 2003
3. Anonymous, Small-scale technology with the promise of big rewards, Technical Textiles International, 2003. 3: p. 13-15.
4. Xin, J.H., Daoud, W.A., and Kong, Y.Y., A New Approach to UV-Blocking Treatment for Cotton Fabrics, Textile Research Journal, 2004. 74: p. 97-100.
5. Yeo, S.Y., Lee, H.J., and Jeong, S.H., Preparation of nanocomposite fibers for permanent antibacterial effect, Journal of Materials Science, 2003. 38: p. 2143-2147.
6. Draper D., Very little to it, World Sports Activewear, 2003. 19: p. 16-17.
7. Kathiervelu, S.S., Applications of nanotechnology in fibre finishing, Synthetic Fibres, 2003. 32: p. 20-22.
8. Zhang, J., France, P., Radomyselskiy, A., Datta, S., Zhao, J., and Ooij, W.V., Hydrophobic cotton fabric coated by a thin nanoparticulate plasma film, Journal of Applied Polymer Science, 2003. 88:
9. Burniston, N., Bygott, C., and Stratton, J., Nano Technology Meets Titanium Dioxide, Surface Coatings International Part A, 2004: p. 179-814.
10. Sherman and Jonathan, Nanoparticulate Titanium Dioxide Coatings, and Processes for the Production and Use thereof, Pat. No 736738, 2003
11. Yang, H.Y., Zhu, S.K., and Pan, N., Studying the Mechanisms of Titanium Dioxide as Ultraviolet-Blocking Additive for Films and Fabrics by an Improved Scheme, Journal of Applied Polymer Science, 2003. 92: p. 3201-3210.
12. Saito, M., Antibacterial, Deodorizing, and UV Absorbing Materials Obtained with Zinc Oxide (ZnO) Coated Fabrics, Journal of Coated Fabrics, 1993. 23: p. 150-164.
13. Xiong, M.N., Gu, G.X., You, B., and Wu, L.M., Preparation and Characterization of Poly(styrenebutylacrylate) Latex/Nano-ZnO Nanocomposites, Journal of Applied Polymer Science, 2003. 90: p. 1923-1931.
14. Daoud, W.A. and Xin, J.H., Low temperature sol-gel processed photocatalytic titania coating, Journal of Sol-Gel Science and Technology, 2004. 29: p. 25-29.
15. Wang, R.H., Xin, J.H., Tao, X.M., and Daoud, W.A., ZnO nanorods grown on cotton fabrics at low temperature, Chemical Physics Letters, 2004. 398: p. 250-255.
16. Anonymous, Nanotechnologies keep feet healthy, Advance in Textiles Technology, 2003. 3: p.10-11.
17. Lee, H.J., Yeo, S.Y., and Jeong, S.H., Antibacterial effect of nanosized silver colloidal solution on textile fabrics, Journal of Materials Science, 2003. 38: p. 2199-2204.
18. Yeo, S.Y. and Jeong, S.H., Preparation and characterization of polypropylene/silver nanocomposite fibers, Polymer International, 2003. 52: p. 1053-1057.
19. Daoud, W.A. and Xin, J.H., Nucleation and growth of anatase crystallites on cotton fabrics at low temperatures, Journal of the American Ceramic Society, 2004. 87: p. 953-955.
20. Athinson, W., Hi-ho silver, Industrial Fabric Product Review, 2003. 88: p. 12-17.
21. Bozzi, A., Yuranova, T., and Kiwi, J., Self-cleaning of wool-polyamide and polyester textiles by TiO2-rutile modification under daylight irradiation at ambient temperature, Journal of Photochemistry and Photobiology A: Chemistry, 2005. 172: p. 27-34.
22. Cui, S.Y., Zu, Y.D., Hui, H.Q., and Zhang, J.Y., Study on anti-bacteria properties of nano-ceramics, Journal of Hebei University of Science and Technology, 2003. 24: p. 19-22.
23. Chen, R.Q., Nanometer materials and health-care textiles, Dyestuff Industry, 2002. 39: p. 24-28.
24. Wang, R.H., Xin, J.H., Yang, Y., Liu, H.F., Xu, L.M., and Hu, J.H., The characteristics and photocatalytic activities of silver doped ZnO nanocrystallites, 2004. 227: p. 312-317.
25. Yasuhide, Y., Masahiko, N., and Kenji, S., Composite material carrying zinc oxide fine particles adhered thereto and method for preparing same, EP Pat. No: 0791681, 1997
26. Dong, W.G. and Huang, G., Research on properties of nano polypropylene/TiO2 composite fiber, Journal of Textile Research, 2002. 23: p. 22-23.
27. Zhou, Z.W., Chu, L.S., Tang, W.M., and Gu, L.X., Studies on the antistatic mechanism of tetrapod-shaped zinc oxide whisker, Journal of Electrostatics, 2003. 57: p. 347-354.
28. Wu, Y., Chi, Y.B., Nie, J.X., Yu, A.P., Chen, X.H., and Gu, H.C., Preparation and application of novel fabric finishing agent containing nano ATO, Journal of Functional Polymers, 2002. 15: p. 43-47.
29. Xu, P., Wang, W., and Chen, S.L., Application of nanosol on the antistatic property of polyester, Melliand International, 2005. 11: p. 56-59.
30. Anonymous, Gore uses nanotechnology to make anti-static workwear safer, International Newsletters, 2002: p. 31.
31. Chien, H.Y., Chen, H.W., and Wang, C.C., The study of non-formaldehyde crease-resist finishing fabrics treated with the compound catalyst of nanometer grade TiO2 under UV light and different polycarboxylic acid, Journal of the Hwa Gang Textile, 2003. 10: p. 104-114.
32. Wang, C.C. and Chen, C.C., Physical properties of crosslinked cellulose catalyzed with nanotitanium dioxide, Journal of Applied Polymer Science, 2005. 97: p. 2450-2456.
33. Song, X.Q., Liu, A., Ji, C.T., and Li, H.T., The effect of nano-particle concentration and heating time in the anti-crinkle treatment of silk, Journal of Jilin Institute of Technology, 2001. 22: p. 24-27.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-b1b1274f-d779-4a08-87c8-94750dd28d5f