Mechanism of electrochromism for amorphous WO3 thin films

15 January 1991

journal article
research article
Published by AIP Publishing in Journal of Applied Physics

Vol. 69 (2) , 933-937
https://doi.org/10.1063/1.347335

Abstract

The mechanism of electrochromism for an amorphous WO₃ film has been studied. The film was prepared by using vacuum evaporation. X‐ray phototelectron spectroscopy analysis has revealed that a state appears below the Fermi level after coloration in a LiClO₄‐propylene carbonate electrolyte and that the Fermi level increases in proportion to the amount of injected lithium. In addition, a decrease in the density of state of the conduction band has been observed in a colored film by using electron energy loss spectroscopy analysis in transmission electron microscopy. It has been concluded that the electrons injected occupy the conduction band after coloration and that electrochromism of amorphous WO₃ film is due to an intraband transition between an electron injected in the conduction band and an empty state.

This publication has 15 references indexed in Scilit:

Degradation of Electrochromic Amorphous WO 3 Film in Lithium‐Salt Electrolyte
Journal of the Electrochemical Society, 1990
Sodium-tungsten bronze thin films: II. Electrical properties of dilute bronzes
Philosophical Magazine Part B, 1985
Sodium-tungsten bronze thin films: I. Optical properties of dilute bronzes
Philosophical Magazine Part B, 1985
Fermi-surface and core-level involvement in conduction-band photoelectron spectroscopy of ${Na}_{x}$ W $O_{3}$
Physical Review B, 1982
Electrochromism in some thin-film transition-metal oxides characterized by x-ray electron spectroscopy
Journal of Applied Physics, 1978
Electronic structure of tetragonal tungsten bronzes and electrochromic oxides
Applied Physics A, 1977
Band structure of cubic NaxWO3
Solid State Communications, 1977
Dependence of WO 3 Electrochromic Absorption on Crystallinity
Journal of the Electrochemical Society, 1977
The optical properties of some alkali metal tungsten bronzes from 0.1 to 38 eV
Journal of Solid State Chemistry, 1973
Optical and photoelectric properties and colour centres in thin films of tungsten oxide
Philosophical Magazine, 1973