Tungsten oxide-based photochromic films which changed reversibly in air between colorless- transparent in the dark and dark blue under UV irradiation were prepared by using methylcellulose as a film matrix and polyols such as ethylene glycol (EG), propylene glycol (PG), and glycerin (Gly) as dispersing agents. Influence of the dispersing agents and water in the films on the photochromic behavior was systematically studied. Under UV irradiation, absorption bands around 640 and 980 nm increased and the coloring rate was the following order: Gly > EG > PG. An increase in the amounts of dispersing agents or water accelerated the coloring rate. By increasing the water content of the film, a new absorption peak appeared at ca. 775 nm and the Raman spectra indicated a shift of W-O-W stretching vibration to lower wavenumber which was due to the formation of hydrogen bonding. All absorption spectra were fit by three Lorentz functions, whose bands were ascribed to various packing of WO6 octahedra. After the light was turned off, the formation of W(5+) was stopped and bleaching occurred by the reaction with O2 in air to recover its original transparent state. We anticipate that the biodegradable photochromic films developed in this study can be applied in recyclable display medium and especially in detachable films for glass windows whose light transmission properties are changed by sunlight, i.e., for usage as an alternative of smart windows without applying voltage.
Tungsten
oxide-based photochromic films that change reversibly in air between
colorless-transparent in the dark and dark blue under UV irradiation
were prepared by using methylcellulose as a film matrix and various
dispersants. Alpha-hydroxyl acid such as glycolic acid (GA) or glyceric
acid (GlyA) is the best dispersant because it can make the film transparent
by adding a small quantity much less than that of 3-hydroxypropionic
acid or ethylene glycol. Fourier-transform infrared spectra and Raman
spectra indicate that a strong interaction exists between WO3 and GA or GlyA. The coloration and bleaching processes of the prepared
films were investigated to clarify the effect of the dispersants and
the moisture contents. The bleaching rate remarkably decreased in
the films containing GA or GlyA but accelerated by increasing the
contact with O2. Measurements of electron-spin resonance
reveals that GA and GlyA as dispersants stabilize the W5+ state. This paper shows that the coloring rate and the period for
keeping the blue-colored state are tunable by changing the dispersants.
The photochromic films containing α-hydroxyl acid as the dispersant
have the potential for application as rewritable film on which information
displayed with blue-colored state can be clearly readable for longer
times compared with other dispersants.
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