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Greyscale and Paper Electrochromic Polymer Displays by UV Patterning.


ABSTRACT: Electrochromic devices have important implications as smart windows for energy efficient buildings, internet of things devices, and in low-cost advertising applications. While inorganics have so far dominated the market, organic conductive polymers possess certain advantages such as high throughput and low temperature processing, faster switching, and superior optical memory. Here, we present organic electrochromic devices that can switch between two high-resolution images, based on UV-patterning and vapor phase polymerization of poly(3,4-ethylenedioxythiophene) films. We demonstrate that this technique can provide switchable greyscale images through the spatial control of a UV-light dose. The color space was able to be further altered via optimization of the oxidant concentration. Finally, we utilized a UV-patterning technique to produce functional paper with electrochromic patterns deposited on porous paper, allowing for environmentally friendly electrochromic displays.

SUBMITTER: Brooke R 

PROVIDER: S-EPMC6419265 | biostudies-literature | 2019 Feb

REPOSITORIES: biostudies-literature

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Greyscale and Paper Electrochromic Polymer Displays by UV Patterning.

Brooke Robert R   Edberg Jesper J   Crispin Xavier X   Berggren Magnus M   Engquist Isak I   Jonsson Magnus P MP  

Polymers 20190205 2


Electrochromic devices have important implications as smart windows for energy efficient buildings, internet of things devices, and in low-cost advertising applications. While inorganics have so far dominated the market, organic conductive polymers possess certain advantages such as high throughput and low temperature processing, faster switching, and superior optical memory. Here, we present organic electrochromic devices that can switch between two high-resolution images, based on UV-patternin  ...[more]

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