The mechanical effects of the intercalation processes in electrochromic WO 3 thin films are reported here and discussed. In particular the electrochemical insertion of H, Li and Na ions in WO 3 was studied by means of laser beam deflection method (LBDM). Linear changes of WO 3 stress were observed for small amounts of the inserted charge and linearity was always associated with a reversible mechanical behavior of thin films. An explanation in terms of homogeneity of the insertion is given. An analogous trend was also verified in the absorbance vs. charge curves. As a consequence the constancy of the electrochromic efficiency values for the three different ions was found. In this way it was possible to determine a full reversible behavior for M x WO 3 in the composition range 0 ≤ x ≤ 0.2. The onset of new phases formation when x exceeded previous upper limit, was observed during Li and Na intercalation. Such transitions brought about the loss of optical and mechanical reversibility. During prolonged hydrogen insertion a reversible slope inversion occurred in stress curve so that it was necessary to take into account different possible mechanisms of the WO 3 electrochromic reaction.
[1]
T. Arnoldussen.
A Model for Electrochromic Tungstic Oxide Microstructure and Degradation
,
1981
.
[2]
S. K. Deb.
Optical and photoelectric properties and colour centres in thin films of tungsten oxide
,
1973
.
[3]
D. Gerstenberg,et al.
Physics of Thin Films
,
1964
.
[4]
Enrico Masetti,et al.
A comparison of the electrochromic properties of WO3 films intercalated with H+, Li+ and Na+
,
1996
.
[5]
F. Rauch,et al.
Hydrogen dynamics in electrochromic multilayer systems investigated by the 15N technique
,
1990
.
[6]
J. Purans,et al.
XAFS Studies of Octahedral Amorphous Oxides
,
1993
.
[7]
S. Kurita,et al.
Optical Characteristics of WO[sub 3] Electrochromic Cells under Heavy Li Ion Injection
,
1982
.