Ramanauskas et al., 2022 - Google Patents
Deposition and application of Indium-Tin-Oxide films for defrosting windscreensRamanauskas et al., 2022
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- 3666343115182345252
- Author
- Ramanauskas R
- Iljinas A
- Marcinauskas L
- Milieška M
- Kavaliauskas Ĺ
- GeceviÄŤius G
- ÄŚapas V
- Publication year
- Publication venue
- Coatings
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The plasma-activated reactive evaporation technique was used for the formation of indium- tin-oxide (ITO) films. The ITO films were deposited on a heated (up to 350° C) glass substrates using various mass ratios of indium and tin. The optical and electrical properties …
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 [In].[Sn]=O 0 title abstract description 23
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