One Month Continuous Operation of Organic p--i--n Solar Cells Covered with a Zinc Oxide Protection Layer
スポンサーリンク
概要
- 論文の詳細を見る
Organic p--i--n solar cells comprising metal-free phthalocyanine and fullerene, which was covered with an aluminum doped zinc oxide protection layer, were successfully operated for 42 days under white light (100 mW cm-2) irradiation. Decreases in the short-circuit photocurrent density and conversion efficiency during this period were just 3 and 5%, respectively. These results suggest that organic solar cells possess sufficient potential for practical long-term durability.
- 2010-08-25
著者
-
Hiramoto Masahiro
Material And Life Science Faculty Of Engineering Osaka University
-
Hiramoto Masahiro
Material and Life Science, Graduate School of Engineering, Osaka University, Suita, Osaka 565-0871, Japan
関連論文
- Metal Nanostructure of Metal/Organic Interface Causing Photocurrent Multiplication Phenomenon(Special Issue on Recent Progress in Organic Molecular Electronics)
- Photocurrent Multiplication at Organic/Metal Interface and Morphology of Metal Films
- Photovoltaic Properties of Ultramicrostructure-Controlled Organic Co-Deposited Films
- One Month Continuous Operation of Organic p--i--n Solar Cells Covered with a Zinc Oxide Protection Layer
- Photoinduced Hole Injection Multiplication in p-Type Quinacridone Pigment Films
- Optical "NOT" Operation in a Light Transducer in which a High-gain Photoresponsive Organic Heterojunction Device is Combined with an Organic Electroluminescent Diode
- Influence of Oxygen and Water on Photocurrent Multiplication in Organic Semiconductor Films
- Influence of Oxygen on Photocurrent Multiplication Phenomenon at Organic/Metal Interface
- Vertical Junction Type Organic Photovoltaic Cells
- Enhanced Photovoltaic Performance in Fullerene:Phthalocyanine Codeposited Films Deposited on Heated Substrate
- Large Area Organic Solar Cells with Thick and Transparent Protection Layers
- Patterned Emission in Organic Electroluminescent Device Using Photodecomposition of Polysilane Film by UV Light