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Electrochromic Coatings

Cronin, J. P.

Abstract Electrochromic coatings change color by the application of an electric stimulus. Under this stimulus the oxidation state of the material is altered resulting in a color change. Depending on the degree of oxidation or reduction the depth of color and transmission through the coating can be controlled [1, 2]. These coatings can be employed in electrochromic applications such as smart windows [3, 4], large area displays [5] and automotive rearview mirrors [6]. For most applications low cost deposition of the active coatings is necessary to successfully market these products. Sol-gel deposition offers this possibility.

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Electrochromic Coatings

Cronin, J. P.

Abstract Electrochromic coatings change color by the application of an electric stimulus. Under this stimulus the oxidation state of the material is altered resulting in a color change. Depending on the degree of oxidation or reduction the depth of color and transmission through the coating can be controlled [1, 2]. These coatings can be employed in electrochromic applications such as smart windows [3, 4], large area displays [5] and automotive rearview mirrors [6]. For most applications low cost deposition of the active coatings is necessary to successfully market these products. Sol-gel deposition offers this possibility.

Electrochromic Coatings

Cronin, J. P.

Abstract Electrochromic coatings change color by the application of an electric stimulus. Under this stimulus the oxidation state of the material is altered resulting in a color change. Depending on the degree of oxidation or reduction the depth of color and transmission through the coating can be controlled [1, 2]. These coatings can be employed in electrochromic applications such as smart windows [3, 4], large area displays [5] and automotive rearview mirrors [6]. For most applications low cost deposition of the active coatings is necessary to successfully market these products. Sol-gel deposition offers this possibility.

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Title:

Electrochromic Coatings

Contributors:

Cronin, J. P. (author)

Published in:

Sol-Gel Technologies for Glass Producers and Users ; 261-269

Publication date:

2004-01-01

Size:

9 pages

ISBN:

978-1-4419-5455-8 , 978-0-387-88953-5

DOI:

https://doi.org/10.1007/978-0-387-88953-5_34

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Precursor Solution , Tungsten Oxide , Electrochromic Property , Tungstic Acid , Solar Energy Material Engineering , Industrial and Production Engineering , Characterization and Evaluation of Materials , Ceramics, Glass, Composites, Natural Methods

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