(2016) Spectral and color changes of Ag/TiO 2 photochromic films deposited on diffusing paper and transparent flexible plastic substrates. Chem Soc Rev 40: 672-687.ĭiop D, Simonot L, Martínez-García J, et al. Pardo R, Zayat M, Levy D (2011) Photochromic organic-inorganic hybrid materials. Photorefractive Effects, Photosensitivity, Fiber Gratings, Photonic Materials and More, OSA publishing, MB1.įerrari JA, Perciante CD (2008) Two-state model of light induced activation and thermal bleaching of photochromic glasses: theory and experiments. (2007) Photorefractive effect and photochromism in Fe doped GaN, Controlling Light with Light: Photorefractive Effects, Photosensitivity, Fiber Gratings, Photonic Materials and More. The European Conference on Lasers and Electro-Optics, OSA publishing, CC_15. JOSA B 19: 2032-2038.ĭürr H, Bouas-Laurent H (2003) Photochromism: Molecules and Systems, 1 Ed., Elsevier.Ĭhiang CH, Chen JC, Hu C (2007) Photorefractive and photochromic properties of Ru-doped lithium niobate crystal, CLEO/Europe and IQEC 2007 Conference Digest. (2002) Photoinduced reversible optical gratings in photochromic diarylethene-doped polymeric thin films. Electrochim Acta 44: 3027-3037.Ĭattaneo S, Lecomte S, Bosshard C, et al. Gavrilyuk A (1999) Photochromism in WO 3 thin films. Scarminio J, Lourenco A, Gorenstein A (1997) Electrochromism and photochromism in amorphous molybdenum oxide films. Appl Optics 32: 3952-3958.įanderlik I (1996) Vlastnostiskel, Informatorium. Neveux D (1993) Photochromic effect in germanosilicate fibers at very low intensities in the blue-green domain. Marquez H, Rincon JM, Celaya LE (1990) Experimental study of CdCl 2: CuCl photochromic coatings. Horowitz F, Pereira MB, de Azambuja GB (2011) Glass window coatings for sunlight heat reflection and co-utilization. Renew Energ 119: 923-934.īerning PH (1983) Principles of design of architectural coatings. Sol Energ Mater Sol C 159: 26-51.ĭesideri U, Asdrubali F (2018) Handbook of Energy Efficiency in Buildings, 1 Ed., Butterworth-Heinemann.Ĭasini M (2018) Active dynamic windows for buildings: A review. Rezaei SD, Shannigrahi S, Ramakrishna S (2017) A review of conventional, advanced, and smart glazing technologies and materials for improving indoor environment. doi: 10.3934/matersci.2020.6.720Ĭasini M (2016) Smart Buildings: Advanced Materials and Nanotechnology to Improve Energy-Efficiency and Environmental Performance, Woodhead Publishing. Grating optical filters for smart windows: Materials, calculations and prospects. angular and temporal characteristics of light transmittanceĬitation: Rustam Zakirullin. The future prospects of the field are declared. A comparative assessment of the potential of various chromogenic and other materials for the use in smart windows, as well as in grating filters for them, is carried out. Calculated angular and temporal characteristics of the light transmittance demonstrate the angular selectivity of the transmission of a smart window with grating optical filter compared to a conventional smart window fully glazed with chromogenic glass. Methods for calculating the geometrical parameters of the gratings considering the annual and daily change in the solar radiation, the location of the building and the window's azimuth are given. The filter blocks the direct sunlight partially or completely in a preset angular range and transmits the diffused light providing comfortable day lighting indoors. Such a window has an optical filter consisting of parallel non-transmissive (absorptive, reflective or scattering, including chromogenics) strips on two surfaces of the pane(s). A smart window with additional function of angular filtering of solar radiation without using the blinds or other light redistribution devices is described. They have a variety of mechanisms for changing the light transmission depending on change in the ambient conditions or under the influence of electric current. Chromogenic and other materials potentially applicable for filtering the solar radiation are reviewed. Smart windows with advanced architectural glass coatings providing the comfortable daylight and thermal environment indoors are an important component to improve the energy efficiency of the buildings.
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