Recent Organic Solar Cell Technology and Market Forecast (2010~2015)
2011, Recent Organic Solar cell(OPV) Development Trend, Patent Analysis and Market Forecast
Organic Solar cell (OPV) using with conjugated polymer donnor and fullerene acceptor, has rapidly been developed for recent years. It is surely one of the alternatives with high potential in the future field of PV. The unit cell with photoactive materials that were recently developed has more than 8% efficiency, commercializing in a short time. Of course, the large-sized module applied with flexible substrate still has low efficiency but is rapidly being improved by developing sequence printing technology. Many are increasingly in expectation of commercialization.
- Key Patent Analysis of Major Businesses and Research Institutes
- Organic Material Development Trend, New Devices and Module Technology Analysis
- Approx. 30 Companies' Recent R&D Information and Product Release Plan
- Organic Solar cell(OPV) Market Forecast by Applications
Organic Solar cell (OPV) using with conjugated polymer donnor and fullerene acceptor, has rapidly been developed for recent years. It is surely one of the alternatives with high potential in the future field of PV. The unit cell with photoactive materials that were recently developed has more than 8% efficiency, commercializing in a short time. Of course, the large-sized module applied with flexible substrate still has low efficiency but is rapidly being improved by developing sequence printing technology. Many are increasingly in expectation of commercialization.
1. INTRODUCTION..
1.1. Overview
1.2. Need for Organic Solar cell
1.3. Potential of Organic Solar cell
2. TECHNOLOGY TREND OF ORGANIC SOLAR CELL
2.1. History of Organic Solar cell
2.2. Operating Principle of Organic Solar cell
2.2.1. Photoelectric Conversion Effect
2.2.2. Solar Cell Effect
2.3. Type of Organic Solar cell
2.3.1. Polymer Donnor - PCBM Acceptor Type
2.3.2. Polymer Donnor - Non-PCBM Acceptor Type
2.3.3. Polymer Donnor - Polymer Acceptor Type
2.3.4. Polymer Donnor - Inorganic Acceptor Type
2.4. Organic Solar Cell Application Field
3. ORGANIC SOLAR CELL MATERIAL DEVELOPMENT TREND..
3.1. Phtoactive Layer Material
3.1.1. Organic Semiconductor Material for Donnor(p-Type)
3.1.2. Organic Semiconductor Material for Acceptor(n-Type)
3.1.3. Inorganic Acceptor(n-Type) Material
3.2. Substrate and Transparent Electrode
3.2.1. Types of Flexible Substrate Material
3.2.2. Performance Requirement of Flexible Substrate Material
3.2.3. Transparent Electrode for Flexible Substrate Material
4. ORGANIC SOLAR CELL CELL AND MODULE TECHNOLOGY.
4.1. Organic Solar cell
4.1.1. General Structure
4.1.2. Regular Structure
4.1.3. Inverted Structure
4.1.4. Organic Solar cell Cell Efficiency Measurement Technology
4.1.5. Energy Conversion Efficiency Measurement Error
4.1.6. Organic Solar cell Cell Lifetime Measurement Technology
4.1.7. Organic Solar cell Module Technology
5. ORGANIC SOLAR CELL PRINTING TECHNOLOGY AND DEVELOPMENT STATUS.
5.1 Screen Printing based Organic Solar cell
5.2. Pad (gravure offset) printing
5.3. Inkjet Printing based Organic Solar cell
5.4. aerosol jet Printing based Organic Solar cell
5.5 Spray printing
5.6. Roll-to-Roll Printing based Organic Solar cell
5.7. Micro-contacting printing
5.8. Brush painting
6. ORGANIC SOLAR CELL PATENT ANALYSIS.
6.1. Global Patent Trend
6.1.1. Konarka
6.1.2. Princeton University
6.1.3. Plextronics
6.2. Korea Patent Trend
6.3. Key Patent Analysis
7. ORGANIC SOLAR CELL R&D TREND..
7.1. Support Policy of Each Country
7.1.1. Organic Solar Cell field suppot Status of Major Global Countries
7.1.2. Korea's Organic Solar cell Field Support Statue
7.2. R&D Trend of Major Global Countries
7.2.1. Konarka (U.S.A)
7.2.2. Plextronics (U.S.A)
7.2.3. Solarmer Energy (U.S.A)
7.2.4. Heliatek (German)
7.2.5. Mitsubishi Chemicals (Japan)
7.2.6. Teijin DuPont Fims (Japan)
7.2.7. Toray (Japan)
7.2.8. Sumitomo Chemicals (Japan)
7.2.9. CDT(Cambridge Display Technology (England)
7.2.10. Global Photonic Energy Corporation (GPEC, U.S.A)
7.3. Oversea Research Institutes??R&D Trend
7.3.1. Risoe National Lab(Denmark)
7.3.2. Fraunhofer ISE(German)
7.3.3. LOIS (Linz Institute for Organic Solar cells, Australia)
7.3.4. CPOS(Center for Polymer and Organic Solid, UC Santa Barbara, U.S.A)
7.3.5. OCM (Optoelectronic Components and Materials Group, U.S.A)
7.4 Korea R&D Trend
7.4.1. KORON
7.4.2. KNP Energy
7.4.3. GIST
7.4.4. Korea Research Institute of Chemical Technology (KRICT)
7.4.5. Korea Advanced Institute of Science & Technology (KAIST)
7.4.6. Korea Institute of Machine & Materials
7.4.7. Konkuk Uni-Fraunhofer Research Center
7.4.8. Others
8. ORGANIC SOLAR CELL MARKET FORECAST (2006~2015)
8.1 Worldwide Solar Cell Market Forecast (2006~2015)
8.2 OPV Market Forecast
8.3 OPV Market Forecast by Application Field
8.4 OPV Cost Forecast by Application Filed
8.5 Maket Size Forecast by Application (Revenue Based)
9. CONCLUSION..
10. INDEX.
10.1 Figure
10.2 Table
10.3 Reference
1.1. Overview
1.2. Need for Organic Solar cell
1.3. Potential of Organic Solar cell
2. TECHNOLOGY TREND OF ORGANIC SOLAR CELL
2.1. History of Organic Solar cell
2.2. Operating Principle of Organic Solar cell
2.2.1. Photoelectric Conversion Effect
2.2.2. Solar Cell Effect
2.3. Type of Organic Solar cell
2.3.1. Polymer Donnor - PCBM Acceptor Type
2.3.2. Polymer Donnor - Non-PCBM Acceptor Type
2.3.3. Polymer Donnor - Polymer Acceptor Type
2.3.4. Polymer Donnor - Inorganic Acceptor Type
2.4. Organic Solar Cell Application Field
3. ORGANIC SOLAR CELL MATERIAL DEVELOPMENT TREND..
3.1. Phtoactive Layer Material
3.1.1. Organic Semiconductor Material for Donnor(p-Type)
3.1.2. Organic Semiconductor Material for Acceptor(n-Type)
3.1.3. Inorganic Acceptor(n-Type) Material
3.2. Substrate and Transparent Electrode
3.2.1. Types of Flexible Substrate Material
3.2.2. Performance Requirement of Flexible Substrate Material
3.2.3. Transparent Electrode for Flexible Substrate Material
4. ORGANIC SOLAR CELL CELL AND MODULE TECHNOLOGY.
4.1. Organic Solar cell
4.1.1. General Structure
4.1.2. Regular Structure
4.1.3. Inverted Structure
4.1.4. Organic Solar cell Cell Efficiency Measurement Technology
4.1.5. Energy Conversion Efficiency Measurement Error
4.1.6. Organic Solar cell Cell Lifetime Measurement Technology
4.1.7. Organic Solar cell Module Technology
5. ORGANIC SOLAR CELL PRINTING TECHNOLOGY AND DEVELOPMENT STATUS.
5.1 Screen Printing based Organic Solar cell
5.2. Pad (gravure offset) printing
5.3. Inkjet Printing based Organic Solar cell
5.4. aerosol jet Printing based Organic Solar cell
5.5 Spray printing
5.6. Roll-to-Roll Printing based Organic Solar cell
5.7. Micro-contacting printing
5.8. Brush painting
6. ORGANIC SOLAR CELL PATENT ANALYSIS.
6.1. Global Patent Trend
6.1.1. Konarka
6.1.2. Princeton University
6.1.3. Plextronics
6.2. Korea Patent Trend
6.3. Key Patent Analysis
7. ORGANIC SOLAR CELL R&D TREND..
7.1. Support Policy of Each Country
7.1.1. Organic Solar Cell field suppot Status of Major Global Countries
7.1.2. Korea's Organic Solar cell Field Support Statue
7.2. R&D Trend of Major Global Countries
7.2.1. Konarka (U.S.A)
7.2.2. Plextronics (U.S.A)
7.2.3. Solarmer Energy (U.S.A)
7.2.4. Heliatek (German)
7.2.5. Mitsubishi Chemicals (Japan)
7.2.6. Teijin DuPont Fims (Japan)
7.2.7. Toray (Japan)
7.2.8. Sumitomo Chemicals (Japan)
7.2.9. CDT(Cambridge Display Technology (England)
7.2.10. Global Photonic Energy Corporation (GPEC, U.S.A)
7.3. Oversea Research Institutes??R&D Trend
7.3.1. Risoe National Lab(Denmark)
7.3.2. Fraunhofer ISE(German)
7.3.3. LOIS (Linz Institute for Organic Solar cells, Australia)
7.3.4. CPOS(Center for Polymer and Organic Solid, UC Santa Barbara, U.S.A)
7.3.5. OCM (Optoelectronic Components and Materials Group, U.S.A)
7.4 Korea R&D Trend
7.4.1. KORON
7.4.2. KNP Energy
7.4.3. GIST
7.4.4. Korea Research Institute of Chemical Technology (KRICT)
7.4.5. Korea Advanced Institute of Science & Technology (KAIST)
7.4.6. Korea Institute of Machine & Materials
7.4.7. Konkuk Uni-Fraunhofer Research Center
7.4.8. Others
8. ORGANIC SOLAR CELL MARKET FORECAST (2006~2015)
8.1 Worldwide Solar Cell Market Forecast (2006~2015)
8.2 OPV Market Forecast
8.3 OPV Market Forecast by Application Field
8.4 OPV Cost Forecast by Application Filed
8.5 Maket Size Forecast by Application (Revenue Based)
9. CONCLUSION..
10. INDEX.
10.1 Figure
10.2 Table
10.3 Reference
