Solar Energy Materials and Solar Cells, Vol.96, No.1, 86-92, 2012
"Partly covered" photoelectrochromic devices with enhanced coloration speed and efficiency
This work comprises an experimental study of photoelectrochromic (PEC) devices for dynamic solar control in buildings. In an effort to overcome the performance limitations of "fully covered" PEC devices in which a thin, transparent TiO(2) layer covers the entire device area, we have developed the "partly covered" PEC type, with an opaque 5 mu m thick TiO(2) film covering only a fraction of WO(3) area on one end of the device. It was found that the partly covered devices are transparent in the visible (with luminous transmittance up to 51%), exhibit rapid coloration (similar to 3 min) upon solar irradiation in open circuit conditions and achieve a considerable transmittance modulation (up to 10.2:1). Various TiO(2) to WO(3) area ratios were tried ranging from 0.23 to 0.48. Reduction of the area ratio decreases the speed of coloration but it does not affect neither the coloration homogeneity nor the end coloration result. Use of the N3 Ruthenium dye has led to substantial photo-coloration efficiencies (up to 4 times more than those achieved with Rhodamine B) and improved the durability of the devices. (C) 2011 Elsevier B.V. All rights reserved.