Development of photochromic device with magnetron sputtered titanium dioxide and tungsten trioxide films

A photochromic (PC) device comprising an electrochromic film (WO3) together with a photoactive film (usually, dye sensitized TiO2) coated on glass and a redox electrolyte (e.g., iodide/triiodide together with lithium salt) reduces the optical transmission under solar illumination and bleaches, again...

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Bibliographic Details
Published inSolar energy materials and solar cells Vol. 166; pp. 204 - 211
Main Authors Bogati, Shankar, Basnet, Rabin, Graf, Wolfgang, Georg, Andreas
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.07.2017
Elsevier BV
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Summary:A photochromic (PC) device comprising an electrochromic film (WO3) together with a photoactive film (usually, dye sensitized TiO2) coated on glass and a redox electrolyte (e.g., iodide/triiodide together with lithium salt) reduces the optical transmission under solar illumination and bleaches, again, in dark or at low intensity of light. This work reports, for first time, on an application of sputter coated TiO2 and WO3 films for this type of PC devices. The applicability of TiO2 and WO3 films in PC device is individually investigated in dye solar cells and electrochromic cells, respectively. A dye solar cell with 180nm TiO2 was shown to be sufficient for the charge generation for electrochromic coloration of the WO3. The compatibility of WO3 and redox electrolyte was studied in electrochromic devices by considering their redox potentials. The bleaching of the PC device has to be adjusted by the so called “loss current”. To address this, a thin catalytic layer of platinum (Pt) is deposited in between the photoactive and electrochromic layers. The optimized PC device exhibits a visual (solar) transmission modulation from 74 (63) down to 30% (20%) in 40min under 1.5 A.M. illumination, and the bleaching is regained in 45min in dark. •Magnetron sputtered TiO2 and WO3 films used for PC devices.•Bleaching was adjusted with a catalytic layer in between WO3 and TiO2 films.•Visual transmission of the device switched from 74 down to 30% in 40min.
ISSN:0927-0248
1879-3398
DOI:10.1016/j.solmat.2017.03.020