2012 Korea OLED Organic Material Industry Report

Format : PDF / Page : 212p / Updated : Apr 2012

Contents

1. Introduction
1.1. Introduction and Overview
1.2. Research Methods

2.OLED structure and process
2.1. OLED structure and material
2.1.1. PMOLED
2.1.2. AMOLED
2.1.3. OLED lighting
2.2. OLED emitting process

3. OLED pixel materials
3.1. Fluorescent materials
3.1.1. Red emitting materials
3.1.2. Green emitting materials
3.1.3. Blue emitting materials
3.2. Phosphorescence materials
3.3. Auxiliary material
3.3.1. Hole injection materials
3.3.2. Hole transport materials
3.3.3. Electron transport materials

4. OLED industry trend
4.1. OLED companies trend
4.2. OLED products trend
4.3. OLED application trend

5. OLED material companies trend
5.1. Korea OLED material companies trend
5.2. Japan OLED material companies trend
5.3. U.S.A OLED material companies trend
5.4. Europe OLED material companies trend

6. Status of Korea OLED material companies
6.1. Summary by companies
6.1.1. History by companies
6.1.2. Capital by companies
6.1.3. Labor force by companies
6.2. Competitiveness for sales by companies
6.2.1. Main customers
6.2.2. Sales materials/ratio
6.2.3. Sales scale and forecast
6.3. Competitiveness for production by companies
6.3.1. Production Capa
6.4. Competitiveness for development by companies
6.5. Progress of Korea OLED organic material price
6.5.1. Change of fluorescent host material price
6.5.2. Change of fluorescent dopant material price
6.5.3. Change of phosphorescent host material price
6.5.4. Change of hole layer material price
6.5.5. Change of electron layer material price
6.6. Project status of OLED organic material in Korea

7. Supply chain status of OLED material industry
7.1. Samsung SMD
7.2. LG Display

8. Analysis of OLED organic material patent in 2011
8.1. Summary of OLED organic material patent
8.1.1. Objective of analysis
8.1.2. Analysis range and classification tree
8.1.3. Search formula and the number of search
8.1.4. Sorting and the criteria for classification
8.1.5. Note on the report
8.2. Comprehensive analysis OLED organic materials
8.2.1. Patent share by country
8.2.2. Patent share by applicant nationality
8.2.3. Applicant by country
8.2.4. Patent share by applicant
8.2.5. Patent share by applicant by country
8.2.6. Patent share by applicant by organic material
8.2.7. Patent share by applicant by color
8.2.8. Patent share by applicant by host/dopant
8.2.9. Patent share by applicant by emitting mechanism
8.2.10. Patent share by applicant by small molecule/polymer
8.2.11. Patent share by applicant by purpose
8.2.12. Patent trend of major applicant by organic material
8.2.13. Activity Index (AI) of major applicants by organic material
8.2.14. Patent trend of major applicants by color
8.2.15. Activity Index (AI) of major applicants by color
8.2.16. Patent trend of major applicants by purpose
8.2.17. Activity Index (AI) of major applicants by purpose
8.2.18. Patent trend of major applicants by host/dopant
8.2.19. Activity Index (AI) of major applicants by host/dopant
8.2.20. Patent trend of major applicants by mechnism
8.2.21. Activity Index (AI) of major applicants by mechnism
8.2.22. Patent trend of major applicants by Small Molecule/Polymer
8.2.23. Activity Index (AI) of major applicants by Small Molecule/Polymer
8.3. Analysis of major OLED organic materials company
8.3.1. Idemitsu
8.3.2. Merck
8.3.3. Fujifilm
8.3.4. SAMSUNG MOBILE DISPLAY(SMD)
8.3.5. Canon
8.3.6. Duksan Hi-metal
8.3.7. LG Chem.
8.3.8. BASF
8.3.9. Sumitomo Chem.
8.3.10. LGD
8.3.11. SFC
8.3.12. Dow Chem.
8.3.13. Mitsubishi Chem.
8.3.14. UDC
8.3.15. Hondogaya Chem.
8.3.16. Nippon Steel Chem
8.3.17. DOOSAN
8.3.18. Konica

9. Table List

10. Figure List

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