Hybrid Passivation for a Film-like Organic Light-Emitting Diode using Parylene and Silicon Dioxide
スポンサーリンク
概要
- 論文の詳細を見る
A hybrid passivation method a using parylene and silicon dioxide combination layer for a film-like organic light-emitting diode (OLED) was applied on a polycarbonate substrate. Parylene coating by vapor polymerization is a highly effective passivation process for the OLED, and it is applied to the entire top surface and the edges of the OLED device. To minimize the permeation of moisture and oxygen from the top surface of the device, an additional layer of silicon dioxide was deposited over the parylene-coated layer. It was found that the water vapor transmittance rate (WVTR) of parylene (15 μm in thickness)/SiO2 (0.3 μm in thickness) combination layers deposited on the polycarbonate film was decreased to less than $10^{-3}$ g/(m2$\cdot$d). The OLED that had undergone hybrid passivation showed significantly longer lifetime characteristics in ambient conditions than the non-passivated OLED. The lifetime of the passivated OLED was 400 h and it was more than ten times the lifetime of the conventional non-passivated OLED.
- 2007-02-15
著者
-
Lee Chan-jae
Information Display Research Center Korea Electronics Technology Institute
-
Han Jeong-in
Information Display Research Center Korea Electronics Technology Institute
-
Oh Myung-hwan
School Of Electrical Electronics And Computer Engineering Dankook University
-
Moon Dae-gyu
Information Display Research Center Korea Electronics Technology Institute
-
Park Young-hwan
School Of Electrical Electronics And Computer Engineering Dankook University
-
Kang Jungwon
School Of Electrical Electronics And Computer Engineering Dankook University
-
Choi Sung-hoon
School Of Electrical Electronics And Computer Engineering Dankook University
-
Chang Gee-keun
School Of Electronics And Computer Engineering Dankook University
-
Park Young-Hwan
School of Electrical, Electronics and Computer Engineering, Dankook University, Seoul 140-714, Korea
-
Han Jeong-In
Information Display Research Center, Korea Electronics Technology Institute, Sung-nam, Kyung-Gi 463-816, Korea
-
Oh Myung-Hwan
School of Electrical, Electronics and Computer Engineering, Dankook University, Seoul 140-714, Korea
-
Kang Jungwon
School of Electrical, Electronics and Computer Engineering, Dankook University, Seoul 140-714, Korea
-
Choi Sung-Hoon
School of Electrical, Electronics and Computer Engineering, Dankook University, Seoul 140-714, Korea
-
Chang Gee-Keun
School of Electronics and Computer Engineering, Dankook University, Cheonan 330-714, Korea
-
Lee Chan-Jae
Information Display Research Center, Korea Electronics Technology Institute, Sung-nam, Kyung-Gi 463-816, Korea
-
Moon Dae-Gyu
Information Display Research Center, Korea Electronics Technology Institute, Sung-nam, Kyung-Gi 463-816, Korea
関連論文
- Organic light emitting devices: the efficiency of polymer light emitting devices with phosphorescent dopant affected by ETL thickness (Electron devices: 第15回先端半導体デバイスの基礎と応用に関するアジア・太平洋ワークショップ(AWAD2007))
- Organic light emitting devices: the efficiency of polymer light emitting devices with phosphorescent dopant affected by ETL thickness (Silicon devices and materials: 第15回先端半導体デバイスの基礎と応用に関するアジア・太平洋ワークショップ(AWAD2007))
- Hybrid Passivation for a Film-like Organic Light-Emitting Diode using Parylene and Silicon Dioxide
- Hybrid Passivation for a Film-like Organic Light-Emitting Diode using Parylene and Silicon Dioxide
- Thermal Behavior of SnO2–5 wt % Pd Composite Nanoparticles Fabricated by In-Situ Synthetic Method
- Position Dependent Stress Distribution of Indium-Tin-Oxide on Polymer Substrate by Applying External Bending Force