Organic Light-Emitting Diodes (OLEDs): Technology Trends and Display Market Assesment

Table of Contents


    1.1 Overview
    1.2 Methodology
    1.3 Forecast on CD-ROM
    1.4 Key Findings


    2.1 Introduction
    2.2 Basic Device Structures
      2.2.1 Monochromatic OLEDs
    2.3 Display Materials
      2.3.1 Small Molecules
      2.3.2 Polymers
      2.3.3 Materials Stability Issues
    2.4 Device Processing and Manufacturing
      2.4.1 Substrates and ITO Layer
      2.4.2 Cathode
      2.4.3 Vapor Deposition
      2.4.4 Spin Coating/Spraying
      2.4.5 Device Fabrication Uniax Kodak
      2.4.6 Current Device Performance Parameters
    2.5 Summary: Important Outstanding R&D Issues
      2.5.1 New Materials
      2.5.2 Roll-to-Roll Coating
      2.5.3 Encapsulation
      2.5.4 Full-Color Displays
    2.6 Conclusions


    3.1 Introduction
    3.2 Forecast Overview
    3.3 Application Overview
      3.3.1 Top Display Applications
    3.4 OLED Market Development
      3.4.1 Small Displays
    3.5 Market and Applications Overview
      3.5.1 Transportation Applications Automobile Displays Commercial Transportation
      3.5.2 Consumer Applications Household Appliances Audio Camoorders and Cameras Color Television/Portable VCRs/DVD Players Clocks Timers/Watches/Personal Health Devices
      3.5.3 Business Applications Balances and Scales Copiers Fax Machines Gaming and Vending POS/Cash Registers/Electronic Shelf Labels
      3.5.4 Industrial Applications
      3.5.5 Telecommunications Cellular Telephones Transceivers/Other Radios Telephones
      3.5.6 Computer Applications
    3.6 Signs and Illumination
      3.6.1 Signs Non-Emissive Signs Emissive Signs
      3.6.2 Illumination Traditional Lighting Display and Sign Backlighting Non-Traditional Lighting


    4.1 Industrial Activity
      4.1.1 Background
      4.1.2 North America Agilent Technologies Alien Technology Corp. Dow Chemical E. 1. DuPont Eastman Kodak FED Corp. Luxell Technologies Minnesota Mining & Manufacturing Three-Five Systems Uniax Corp. Universal Display Corp.
      4.1.3 Europe Cambridge Display Technology Covion Organic Semiconductors Opsys Limited Philips Electronics N.V. SiemensAG
      4.1.4 Asia Canon Denso Mitsubishi Chemical NEC Pioneer Corp. Sanyo Electric Seiko Epson Sumitomo Chemical TDK

    4.2 University and Non-Industrial Laboratory Activity
      4.2.1 North America CAMP NNAAOMP Princeton University UCLA University of Southern California
      4.2.2 Europe Cambridge University Linkoping University Swiss Federal Institute of Technology University of Groningen University of Sheffield
      4.2.3 Asia Kyushu University Osaka University Yamagata University
    4.3 Government Activity
      4.3.1 North America DARPA AFOSR, ARO, ON R NSF NIST
      4.3.2 Europe National Sources International Sources
      4.3.3 Asia


    5.1 Introduction
    5.2 Details of the Cost Model
      5.2.1 General Assumptions of the Models
      5.2.2 Overview of the Manufacturing Process
      5.2.3 Overview of the Cost Modeling Process
    5.3 OLED Cost Model Output Summary
    5.4 OLED Cost Model Interpretation
    5.5 Comparative View and Conclusions

Appendix A - The Science of Electroluminescence

Appendix B - Chromaticity Diagrams for OLED Materials

Appendix C - Worldwide OLED Database

Appendix D - About the Authors and Publishers



US $ 5950 (Hard Copy + CD-ROM)

Pub Time

March 2000