Abstract
The present paper investigates the sputtered tungsten oxide thin films on gallium-doped zinc oxide-coated glass substrates concerning electrochromic behavior since the most promising candidate of smart glass in the future. Concordantly, each of the deposition parameters, including sputter power, total pressure, and O2/Ar + O2 gas ratio in the plasma, were examined in terms of electrochromic applications to enable to use of these values to be brought to large scale in commercial applications. As a result of comprehensive and systematic optimization studies, the optical modulation values were reached from 63.1 % to 70.8 % and the time needed for coloration and bleaching was observed as 7 and 5 s with final deposition values as 45 W power, 10 mTorr pressure, and 25 % O2 ratio. Additionally, whilst durability is still a problem in electrochromic coatings, reasonable durability cycling was achieved after 900 switching without encapsulation.
Original language | English |
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Article number | 136132 |
Journal | Materials Letters |
Volume | 362 |
DOIs | |
Publication status | Published - 1 May 2024 |
Bibliographical note
Publisher Copyright:© 2024 Elsevier B.V.
Keywords
- Electrochromic
- GZO
- Sputtering
- Thin films
- Tungsten oxide