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Abstrakty
Optical properties and structure of antireflective coatings (AR) deposited from hydrolysed TEOS sol have been characterized in detail. The influence of various parameters on the formation of colloidal silica antireflective coatings by the dip-coating technique has been investigated. For the characterization of colloidal silica films, the UV-visible spectroscopy, laser ellipsometry, and atomic force microscopy were used. Using optimal sol-gel processing conditions (dipping rate - 40 mm/min, coating time - 20 s, and temperature - 20 oC), the colloidal silica coatings were obtained and characterized in comparison with non-coated glass substrate. The reflectance of AR coatings increased with increasing the temperature of sol-gel processing. The laser damage threshold of as deposited films was measured at 1064 nm (1H) and 335 nm (3H) wavelength using a Nd:YAG lasers. The laser damage threshold of AR coating exceeded 15.22 J/cm2 at 1064 nm and 26.82 J/cm2 at 355nm.
Słowa kluczowe
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Czasopismo
Rocznik
Tom
Strony
817--824
Opis fizyczny
Bibliogr. 19 poz.
Twórcy
autor
autor
autor
autor
autor
autor
- Department of Chemistry, Vilnius University, Naugarduko 24, LT-03225 Vilnius, Lithuania
Bibliografia
- [1] CHEN D., Sol. Energy Mat. Sol. Cell, 68 (2000), 313.
- [2] GOMBERT A., GLAUBITT W., ROSE K., DREIBHOLZ J., BLASI B., HEINZEL A., SPORN D., DOLL W., WITTWER V., Thin Solid Films, 351 (1999), 73.
- [3] NOSTELL P., ROOS A., KARLSON B., Thin Solid Films, 434 (1999), 170.
- [4] NOSTELL P., ROOS A., KARLSON B., Sol. Energy Mat. Sol. Cell, 54 (1998), 223.
- [5] HAMMARBERG E., ROOS A., Thin Solid Films, 442 (2003), 222.
- [6] THOMAS I., Appl. Opt., 31 (1992), 6145.
- [7] THOMAS I., Appl. Opt., 25 (1986), 1447.
- [8] THOMAS I., SPIE, 2114 (1993), 230.
- [9] DAS S., ROY S., PATRA A., BISWAS P.K., Mater. Lett., 57 (1999), 2320.
- [10] XU Y., ZHANG B., FAN W.H., SUN H.Y., Thin Solid Films, 440 (2003), 180.
- [11] OKUDERA H., HOZUMI A., Thin Solid Films, 434 (2003), 62.
- [12] STOBER W., FINK A., BOHN E., J. Colloid. Inter. Sci., 26 (1968), 62.
- [13] GREEN D.L., LIN J.S, LAM Y., HU M.Z., SCHAEFER D.W., HARRIS M.T., J. Colloid Inter. Sci., 266 (2003), 346.
- [14] BOGUSH G.H., ZUKOVSKI C.F., J. Colloid. Inter. Sci., 142 (1991), 1.
- [15] BOGUSH G.H., TRASY M.A., ZUKOWSKI C.F., J. Non-Cryst. Solids, 104 (1988), 95.
- [16] COSTA C.A.R., LEITE C.A.P., GALEMBEC F., J. Phys. Chem. B., 107 (2003), 4747.
- [17] GREEN D.L., JAYSUNDARA S., LAM Y., HARRIS M.T., J. Non-Cryst. Solids, 315 (2003), 166.
- [18] HENCH L.L, WEST J.K., Chem. Rev. 90 (1990), 33.
- [19] CATHRO K.J., CONSTABLE D., SOLAGA T., Sol Energy, 32 (1984), 573.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW7-0007-0091