Electrodeposited tungsten oxide films: annealing effects on structure and electrochromic performance

A potentiostatic electrochemical procedure employing an ethanolic solution of peroxotungstic acid yielded tungsten oxide (WO3) films specifically for transmissive electrochromic devices (ECDs) such as smart windows. The structure - property correlation for the as-deposited thin films of WO3 and the films annealed at different temperatures (60, 100, 250 and 500 degreesC) is described. While the as-deposited film comprises of a small volume fraction of nanocrystals, the films annealed at 60 and 100 degreesC are X-ray amorphous, the 250 degreesC film is triclinic and the 500 degreesC film is characterized by mixed triclinic and hexagonal crystalline phases. Scanning electron micrographs (SEMs) clearly reveal the presence of nanograins/crystallite aggregates in the heat-treated films. Coloration renders the 250 degreesC film amorphous and reduces the crystallite size in the as-deposited and 500 degreesC films. Thermal analysis provides information pertaining to the critical temperatures at which dehydration, peroxo group decomposition and crystallization occur. Fourier transform infrared (FTIR) spectroscopic data show that while the as-deposited WO3 film is composed of a peroxopolytungstate ion network with water molecules acting as bridging groups, the crystalline film annealed at 500 degreesC shows absorption bands characteristic of the W-O-W network (polytungstate ions linked through oxygens). Coloration efficiency (CE; eta) and transmission modulation (DeltaT) are slightly higher for the amorphous 60 degreesC film when compared with the narrocrystalline as-deposited film in the 450<850 nm range, and these properties deteriorate at temperatures greater than or equal to100 degreesC. However, switching times between the colored and bleached states and ion storage capacities show a systematic and significant decrease with increasing annealing temperature. High transmission modulation (67.5% at 632.8 nm), fast bleaching kinetics (similar to5 s), high ion storage capacity (22 mC cm(-2)) and a coloration efficiency of 60.5 cm(2) C-1 at 632.8 nm observed for the as-deposited film render it to be a suitable candidate for electrochromic window applications. An operational lifetime of more than 104 cycles has been tested successfully for the as-deposited film against a platinum sheet as an auxiliary electrode. (C) 2004 Elsevier B.V. All rights reserved.