Tekstylia zdolne do samooczyszczania

• Autorzy: Bendkowska W.

Warianty tytułu

EN

Self-cleaning textiles

• Języki publikacji: PL

Abstrakty

EN

This review summarizes the key topics in the field of self-cleaning textiles. Hydrophobic and hydrophilic surfaces of textiles are discussed and the various mechanisms of self-cleaning are described. The recent research on modification of cotton fabrics surfaces by photocatalytic TiO2-coatings were discussed. The biomimetic approach for fabrication of superhydrophobic fibers with self-cleaning ability is presented.

Słowa kluczowe

PL

tekstylia; samooczyszczanie; hydrofilowość; hydrofobowość

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Włókienniczy - Włókno, Odzież, Skóra
• Rocznik: 2007
• Tom: nr 2
• Strony: 54--58
• Opis fizyczny: Bibliogr. 19 poz., rys.

Twórcy

autor

Bendkowska W.

• Instytut Włókiennictwa w Łodzi,

Bibliografia

• 1. Hong Y.W.H., Yuen C.W.M, Leung My.S., Ku S.K.A., Lam H.L.I., Selected applications of nanotechnology in textiles, Autex RJ , vol. 6, nr 1, 2006.
• 2. Parkin I.P., Palgrave R.G., Self cleaning coatings, J. Mat. Chemistry.. 15, 1689-1695, (2005).
• 3. Black D.M., Yogi G.D., Cleaning up with sunshine, Mechanical Engineering, 118 (8), 56-60 (1996).
• 4. Mori K., Photo-functionalized materials using nanoparticles. Photocatalysis, J. Soc, Powder Technology, 41, 750-756, (2004)
• 5. Yang H.Y., Zhu S.K., Pan N., Studying the mechanisms of titanium dioxide as ultraviolet-blocking additive for films and fabrics by an improved scheme, J. of Appl. Pol. Science, 92, 3201-3210, (2003).
• 6. Daoud W.A., Xin J.H., Nucleation and growth of anatase crystallites on cotton fabrics at low temperature, J. Am. Ceram. Soc. 87, (5), 953-955, (2004).
• 7. Daoud W.A., Xin J.H., Low temperature sol-gel processed photo catalytic titania coating, Journal of Sol-Gel Science and Technology, 29, 25-29, (2004).
• 8. Meilert K.T., Laub D., Kiwi J., Photocatalytic self-cleaning of modified cotton textiles by TiO2 clusters attached by chemical spacers, Journal of Molecular Catalysis A: Chemical, 237, (1-2), 101-108, (2005).
• 9. Yuranowa T., Mosteo R., Bandara J., Laub D., Kiwi J., Self-cleaning cotton textiles surfaces modified by photoactive SiO2/TiO2 coating, Journal of Molecular Catalysis A: Chemical, 244, (1-2), 160-167, (2006).
• 10. Bozzi A., Yuranova T., 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, 172, 27-34, (2005).
• 11. Sfiligoi Smole M., Stakne K., Bele M., Jamnik J., Hribernik S., Verenovski N., Stana Kleineschek K., Ribitsch V., Nanocoatings for textiles. Proceedings of 3rd ITC&DC, October 8-10, 2006, Dubrownik. 109-113.
• 12. Barthlott W., Neinhuis C., Purity of the sacred lotus, or escape from contamination in biological surfaces, Planta, 202, 1 (1997).
• 13. von Baeyer H.C., The lotus effect, The Sciences, January February, 12, (2000).
• 14. Chen W., Fadeev A.Y., Hsieh M.C., Oener D., Yongblood J., McCarthy T.J., Ultrahydrophobic and ultraoleophobic surfaces with reversibly tunable properties: some comments and examples, Langmuir, 15, 3395 (1999).
• 15. Cheng Y.T., Rodal D.E., Wong C.A., Hayden C.A., Effects of micro- and nano-structures on self-cleaning behavior of lotus leaves, Nanotechnology 17, 1359-1362, (2006).
• 16. Stegmaier Th., Lotus-Effect on textiles, www.itv-denkendorf.de, September 2006.
• 17. von Arnim V., Dauner M., Scherrieble A., Stegmaier T., Planck H., Nano-structured textiles, Proceedings of Nanofair 2005, November 29-30, 2005, Dresden.
• 18. Barthlott W., Self-cleaning surfaces of objects as well as processes for the production of the same, EP 0772514, 24.05.1997.
• 19. National Textile Center. Project No. C04-CL06. Luzinov I., Brown P., Chumanov G., Minko S., Ultrahydrophobic Fibers: Lotus Approach, www. ntcresearch.org, October 2006.