Brian W. Faughnan scite author profile

Measurements have been made of the current flow in amorphous WO3 films containing electrons and mobile cations. In a configuration in which electrons are extracted at one contact and cations at the other, the current decays as t−3/4 over many decades of time. By using space-charge current flow ideas, we develop a theory that gives the correct time dependence and magnitude of the current for this double-extraction phenomenon.

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Optical properties of mixed-oxide WO3/MoO3 electrochromic films

Faughnan

Crandall

1977

173

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The electrochromic optical absorption of mixed-oxide WO3/MoO3 amorphous films occurs at higher energy than either pure oxide alone. The systematics of the energy shifts as a function of MoO3 concentration and coloration density is determined. The data is explained by the intervalency charge-transfer model if we assume that electrons trapped at Mo6+ ions lie 0.73 eV deeper than electrons on W6+ ions. Measurements of electron diffusion in mixed oxides support this hypothesis. The maximum absorption peak of mixed oxides is 2.15 eV compared with 1.4 eV for WO3. This is close to the peak in eye sensitivity, thereby leading to improved electrochromic display devices.

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Photochromism in Transition-Metal-Doped SrTiO3

Faughnan

1971

Phys. Rev. B

163

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Electrochromic displays based on WO3

Faughnan¹,

Crandall²

1980

102

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Electronic Transport in AmorphousHxWO3

1977

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Brian W. Faughnan

Model for the bleaching of WO3 electrochromic films by an electric field

Optical properties of mixed-oxide WO3/MoO3 electrochromic films

Photochromism in Transition-Metal-Doped SrTiO3

Electrochromic displays based on WO3

Electronic Transport in AmorphousHxWO3

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