ORALS
SESSION: AdvancedMaterialsWedPM1-R8
| 4th Intl. Symp. on New and Advanced Materials and Technologies for Energy, Environment and Sustainable Development |
| Wed Nov, 7 2018 / Room: Grego (50/3rd) | |
| Session Chairs: Yashika Gupta; Jarugu Narasimha Moorthy; Session Monitor: TBA |
14:50: [AdvancedMaterialsWedPM107]
The Multi-layer Structures Based on TiO<sub>2</sub> for Multifunctional Glazing Surface Luminita
Andronic1 ;
1Transilvania University of Brasov, Brasov, Romania;
Paper Id: 215
[Abstract] Multi-layer structures based on TiO<sub>2</sub> have been designed, developed, and assembled into functional nanostructures at the molecular-level to control the materials' properties. Controlling microstructure and homogeneity of nano-sized materials with well-defined properties will be done by sol-gel method and dip-coating methods. Due to the possibility of controlling the hydrolysis, condensation, and densification processes, the sol-gel method offers the opportunity to synthesize a large variety of new materials.
The glazing surfaces with photocatalytic water pollutants decontamination, low-E and thermochromic properties were obtained by epitaxial growth of nanostructures on commercial low-E glass substrate, thus ensuring multi-functionality of existing materials on the market, for the next generation of integrated windows in buildings with low energy consumption.
The thin films with multi-layers structure had following structure: substrate (low-E glass)/layer 1/layer2. Layer 1 is an oxide thin film of TiO<sub>2</sub> formed on the substrate, and acts as a barrier to prevent Na<sup>+</sup> from diffusing into the thermochromic layer. Layer 2 is a thermochromic layer of V<sub>x</sub>O<sub>y</sub>.
Characterisation of coating on low-E glass in terms of crystallinity, roughness, morphology, band gap energy, functional properties of glazing, and optical properties (transmittance, reflectance, and absorbance) will be performed. Materials that have transmittance of <70% are considered non-compliant with the target of at least 80% for which the glazing had kept the visual comfort. The coatings passed the stability and durability tests in climate chamber, humidity, salt spray testing, and exposure of glazing to a dry atmosphere at a temperature of 0-50°C, according to the ISO/ASTM standards. Photocatalysis standard tests of pollutants degradation consist in efficiency evaluate of methylene blue (MB) photodegradation in aqueous solution, according ISO 10678/2010.
References:
[1] A. Hosein, G. Hoseini, N. Dalilah Dahlan, U. Berardi, A. Ghaffarian Hoseini, N. Makaremi, M. Ghaffarian Hoseini, Renewable and Sustainable Energy Reviews 25 (2013) 1-17.
[2] K. Midtdal, P. Jelle, Bjorn, Solar Energy Materials and Solar Cells 109 (2013) 126-141.
[3] L. Long, H. Ye, Solar Energy 107 (2014) 236-244.
