Development of photoelectrochromic devices for dynamic solar control in buildings

An experimental study of photoelectrochromic (PEC) devices for dynamic solar control in buildings is presented. The fabricated devices consist of a 400 nm thick WO3 film, a 300 nm thick dye-sensitized nano-structured TiO2 layer, a 0.5 M LiI/PC electrolyte and an electrodeposited Pt counter electrode. All layers were developed aiming to increase the device transparency without reducing its functionality. The PEC devices thus prepared exhibit fast coloration (∼12 min) under sunlight, considerable transmittance modulation (Tlum varying from 50% to 14% and contrast ratio of 3.6:1) and a haze factor in the bleached state equal to 27.8%. They can withstand more than 100 continuous coloration–bleaching cycles. ct differences were observed between PEC devices and electrochromics, regarding the change in color coordinates during coloration. The former take a green color as opposed to the deep blue color of the latter. Furthermore, in PEC devices the optical interference between the WO3 and TiO2 films can be used advantageously to tailor their color. l efficiency index, suitable for PEC devices, termed “photocoloration efficiency, PhCE” was introduced and it was used for their characterization. It was found that the PEC devices presented in this work have high photocoloration efficiencies during the initial coloration stages (∼6 min) and that they compare well in terms of PhCE with similar devices developed by others.