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Chemical resistance of SiO2 layers obtained by the sol–gel technique on a glass substrate

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper analyses the influence of heat treatment parameters on SiO2 coatings obtained by the sol–gel technique. Their adhesion to the glass substrate and corrosion resistance were studied. The changes in thickness and porosity with the firing temperature and time of sintering for the systems of 1, 2 and 3 layers in case of SiO2 layers were studied. It was shown that the sufficient durability of the SiO2 coating on the glass substrate can be achieved only by the appropriate selection of thermal treatment parameters. The results confirmed that higher sintering temperature is required for multilayer systems, as compared with a one-layer system.
Czasopismo
Rocznik
Strony
125—134
Opis fizyczny
Bibliogr. 20 poz., rys.
Twórcy
autor
  • AGH University of Science and Technology, al. Mickiewicza 30, 30-059 Kraków, Poland
autor
  • AGH University of Science and Technology, al. Mickiewicza 30, 30-059 Kraków, Poland
autor
  • AGH University of Science and Technology, al. Mickiewicza 30, 30-059 Kraków, Poland
Bibliografia
  • [1] DINGUO CHEN, Anti-reflection (AR) coatings made by sol–gel processes: a review, Solar Energy Materials and Solar Cells 68(3–4), 2001, pp. 313–336.
  • [2] SAN VICENTE G., BAYÓN R., GERMÁN N., MORALES A., Surface modification of porous antireflective coatings for solar glass covers, Solar Energy 85(4), 2011, pp. 676–680.
  • [3] KESMEZ Ö., ÇAMURLU H.E., BURUNKAYA E., ARPAÇ E., Preparation of antireflective SiO2 nanometric films, Ceramics International 36(1), 2010, pp. 391–394.
  • [4] QINYUAN ZHANG, JUN SHEN, JUE WANG, GUANGMING WU, LINGYAN CHEN, Sol–gel derived ZrO2-SiO2 highly reflective coatings, International Journal of Inorganic Materials 2(4), 2000, pp. 319–323.
  • [5] XIAOGUANG LI, JUN SHEN, A scratch-resistant and hydrophobic broadband antireflective coating by sol–gel method, Thin Solid Films 519(19), 2011, pp. 6236–6240.
  • [6] HATA S., KAI Y., YAMANAKA I., OOSAKI H., HIROTA K., YAMAZAKI S., Development of hydrophilic outside mirror coated, with titania photocatalyst, JSAE Review 21(1), 2000, pp. 97–102.
  • [7] GHARAZI S., ERSHAD-LANGROUDI A., RAHIMI A., The influence of silica synthesis on the morphology of hydrophilic nanocomposite coating, Scientia Iranica 18(3), 2011, pp. 785–789.
  • [8] NOCUŃ M., KWAŚNY S., ZONTEK J., Photodecomposition of Rhodamine B on TiO2/SiO2 thin films prepared by sol–gel method, Materials Science – Poland 31(1), 2013, pp. 88–94.
  • [9] SCHELLE S., MENNIG M., KRUG H., JONSCHKER G., SCHMIDT H., One step antiglare sol–gel coating for screens by sol–gel techniques, Journal of Non-Crystalline Solids 218, 1997, pp. 163–168.
  • [10] NOCUŃ M., ZONTEK J., KWAŚNY S., Synthesis, chemical characterization and antifungal activity of thin layers prepared by sol–gel method, Optica Applicata 42(2), 2012, pp. 315–322.
  • [11] XIE Y., HAWTHORNE H.M., Measuring the adhesion of sol–gel derived coatings to a ductile substrate by an indentation-based method, Surface and Coatings Technology 172(1), 2003, pp. 42–50.
  • [12] ATANACIO A.J., LATELLA B.A., BARBÉ C.J., SWAIN M.V., Mechanical properties and adhesion characteristics of hybrid sol–gel thin films, Surface and Coatings Technology 192(2–3), 2005, pp. 354– 364.
  • [13] MALZBENDER J., DEN TOONDER J.M.J., BALKENENDE A.R., DE WITH G., Measuring mechanical properties of coatings: a methodology applied to nano-particle-filled sol–gel coatings on glass, Materials Science and Engineering R: Reports 36(2–3), 2002, pp. 47–103.
  • [14] VONG M.S.W., SERMON P.A., Observing the breathing of silica sol-gel-derived anti-reflection optical coatings, Thin Solid Films 293(1–2), 1997, pp. 185–195.
  • [15] HOLLAND L., The Properties of Glass Surface, Chapman and Hall, London, 1964, pp. 290–308.
  • [16] CHONGFEI XIN, CHENG PENG, YUDONG XU, JIANQING WU, A novel route to prepare weather resistant, durable antireflective films for solar glass, Solar Energy 93, 2013, pp. 121–126.
  • [17] PRADO R., BEOBIDE G., MARCAIDE A., GOIKOETXEA J., ARANZABE A., Development of multifunctional sol–gel coatings: anti-reflection coatings with enhanced self-cleaning capacity, Solar Energy Materials and Solar Cells 94(6), 2010, pp. 1081–1088.
  • [18] YOLDAS B.E., PARTLOW D.P., Formation of broad band antireflective coatings on fused silica for high power laser applications, Thin Solid Films 129(1–2), 1985, pp. 1–14.
  • [19] NOCUŃ M., BURCON D., SIWULSKI S., Sodium diffusion barrier coatings prepared by sol–gel method, Optica Applicata 38(1), 2008, pp. 171–179.
  • [20] BENAMAR E., RAMI M., MESSAOUDI C., SAYAH D., ENNAOUI A., Structural, optical and electrical properties of indium tin oxide thin films prepared by spray pyrolysis, Solar Energy Materials and Solar Cells 56(2), 1999, pp. 125–139.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-387ca0ce-1ba9-4bb3-a63d-2d8d0d61d36f
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