Topics
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Weeks | Topics |
1 |
Nanotechnology Description, nanotechnology applications
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2 |
Nanofibers, Nanoparticles, Nanoporous materials
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3 |
Nanofibers, Nanoparticles, Nanoporous materials
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4 |
Nanocomposites, Carbon nanotubes, textile applications at nanotechnology
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5 |
Sol-gel Technology, Description, preparation of sols and chemistry, the chemistry of precusor solutions, colloidal particles and sols, gellation, gels, phase transformation, heating and annealing processes for sols, the applications of sol-gel process, the textile applications of sol-gel processing (Dyeing, Antiwrinkle, Flame retardancy, Water repellency, UV protectivity, Conductive textiles, Self-cleaning textiles)
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6 |
Sol-gel Technology, Description, preparation of sols and chemistry, the chemistry of precusor solutions, colloidal particles and sols, gellation, gels, phase transformation, heating and annealing processes for sols, the applications of sol-gel process, the textile applications of sol-gel processing (Dyeing, Antiwrinkle, Flame retardancy, Water repellency, UV protectivity, Conductive textiles, Self-cleaning textiles)
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7 |
Sol-gel Technology, Description, preparation of sols and chemistry, the chemistry of precusor solutions, colloidal particles and sols, gellation, gels, phase transformation, heating and annealing processes for sols, the applications of sol-gel process, the textile applications of sol-gel processing (Dyeing, Antiwrinkle, Flame retardancy, Water repellency, UV protectivity, Conductive textiles, Self-cleaning textiles)
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8 |
Midterm exam
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9 |
Plasma technolgy, description, plasma types, textile application of plasma technologies (Hidrophilicity, Hidrophobicity, Water repellency, Flame retardancy, Antifelting, Antibacterial properties, Other modification processes)
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10 |
Plasma technolgy, description, plasma types, textile application of plasma technologies (Hidrophilicity, Hidrophobicity, Water repellency, Flame retardancy, Antifelting, Antibacterial properties, Other modification processes)
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11 |
Plasma technolgy, description, plasma types, textile application of plasma technologies (Hidrophilicity, Hidrophobicity, Water repellency, Flame retardancy, Antifelting, Antibacterial properties, Other modification processes)
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12 |
Microencapsulation, description, microencapsulation methods (Interface polymerization, Sprey-dry, Embedding in cyclodextrine, Phase separation method), drug delivery ( Mechanic, pH changing, Biodegradation), textile Applications of microencapsulation technolgy (Cosmetic applications, drug applications, phase change materials, photochromic and thermochromic materials, flame retardancy applications, dyeing applications (liposoms), secret marking products
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13 |
Microencapsulation, description, microencapsulation methods (Interface polymerization, Sprey-dry, Embedding in cyclodextrine, Phase separation method), drug delivery ( Mechanic, pH changing, Biodegradation), textile Applications of microencapsulation technolgy (Cosmetic applications, drug applications, phase change materials, photochromic and thermochromic materials, flame retardancy applications, dyeing applications (liposoms), secret marking products
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14 |
Microencapsulation, description, microencapsulation methods (Interface polymerization, Sprey-dry, Embedding in cyclodextrine, Phase separation method), drug delivery ( Mechanic, pH changing, Biodegradation), textile Applications of microencapsulation technolgy (Cosmetic applications, drug applications, phase change materials, photochromic and thermochromic materials, flame retardancy applications, dyeing applications (liposoms), secret marking products
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Resources
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Resources | Resources Language |
1. Pierre, A.C., Introduction to Sol-gel Processing, Kluwer Academic Publishers, 1998, Massachusetts, USA | English |
2. Brinker, C.J., Scherer, G.W., Sol-gel Science, The Physics and Chmistry of Sol-gel Processing, Academic Pres, 1990, San Diego, California | English |
3. Jolivet, J.P., Henry, M., Livage, J., Besche, E., Metal Oxide Chemistry and Synthesis, From Solution to Solid State, John Wiley & Sons, Ltd., 2003, London, UK, ISBN: 0471970565 | English |
4. Coated Fabrics Technology, Technomic Publishing Company,Inc.,U.S.A., 1985, ISBN: 87762-426-7 | English |
5. Mattila, H.R., Intelligent Textiles and Clothing, The Textile Institute, Woodhead Publishing Limıted, England | English |
6. Benite, S., Microencapsulation, Marcel Dekker, Inc.,U.S.A., 1996, ISBN:0-8247-9703-5 | English |
7. Sen, A. K., Tech, M, 2001. Coated Textiles Principles And Applications, Technical Editor John Damewood, ISBN : 1-58716-023-4. | English |
8. Inagaki, N. “Plasma Surface Modification and Plasma Polymerization”, 1996, Lancaster-Pensilvania (USA): Technomic Publishing Company, Inc., ISBN 1-56676-337-1 | English |
9. Cireli, A., Kutlu (Kiliç), B. & Mutlu, M., Journal of Applied Polymer Science, 2007, Vol.104, 2318-2322 | English |
10. Akovali, G. & Gundogan, G., Journal of Applied Polymer Science, 1990, Vol. 41, 2011-2019 | English |
11. Chaivan, P., Pasaja, N., Boonyawan, D., Suanpoot, P. & Vilaithong, T., Surface & Coatings Technology, 193, 2005, 356– 360 | English |
12. Li, R., Ye, L. & Mai, Y.W., Composites Part A, 28A, 1997, 73-86 | English |
13. Molina, R., Espinos, J.P., Yubero, F., Erra, P. & Gonzalez-Elipe, A.R., Applied Surface Science, 252, 2005, 1417-1429 | English |
14. Paulussen, S., Vangeneugden, D., Goossens, O. & Dekempeneer, E., Materials Research Society Symposium Proceedings, Vol. 724, Materials Research Society, 2002 | English |
15. Yuranova, T., Rincon, A.G., Bozzi, A., Parra, S., Pulgarin, C., Albers, P. & Kiwi, J., Journal of Photochemistry and Photobiology A: Chemistry, 161, 2003 27–34 | English |
16. Wei, Q., Li, Q., Wang, X., Huang, F. & Gao, W. Polymer Testing, 25, 2006, 717–722 | English |
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