Markets for OLED Materials: 2010-2017

This publication has been discontinued on June 14, 2011.

Below is the updated product.

Markets for OLED Materials - 2011

Published: June, 2011

Product code: 192292

Introduction

Abstract

This report contains NanoMarkets latest analysis and forecasts of the OLED materials market. Our new appraisal of this market is viewed from the perspective of the world' s ongoing economic problems and especially from the shift in the applications space; plans to launch large OLED display panels were put on hold by several suppliers in 2009, while OLED lighting is exciting the attention of both lighting and OLED firms. These changes obviously have a significant impact on what materials are needed in the OLED space and how materials firms can make money.

What hasn' t changed, however, is that almost all of the applications in which OLEDs are (or will be) used are badly in need of performance improvements. This typically translates into the need for better materials and with this in mind this report discusses the latest OLED materials and fabrication achievements, what the likely roadmap for OLED materials as a whole is likely to be, and what impact new materials developments are likely to have on the OLED industry.

The report addresses all of the segments of the OLED materials market and covers both polymers and small molecules, including materials for the latest solution processable small molecule approaches to OLED fabrication. It also covers materials for all layers of the OLED from the photoactive materials themselves, through the electrodes and encapsulation materials. Coverage includes the role of newer nanomaterials that appear to have commercial potential in the OLED space.

As with all NanoMarkets reports, this report on OLED materials provides detailed forecasts of the materials covered broken out by type and by application. It also includes strategic profiles of the leading firms who are developing and selling OLED materials of all kinds. The audience to which this report is targeted should be strategic planners and marketing managers at materials firms of all kinds, electronics companies, display and lighting firms and the developers of OLED technology itself.

Table of Contents

Executive Summary

• E.1 Introduction
• E.2 Outlook for Materials Suppliers
• E.3 Strategies for OLED Device Manufacturers
• E.4 Strategies for Equipment Makers
• E.5 Movers and Shakers of the OLED Materials Market
• E.6 Summary of Eight-Year Forecast of OLED Materials

Chapter One: Introduction

• 1.1 Background to This Report
  • 1.1.1 Making Haste Slowly
  • 1.1.2 Speed Bump: The Effects of the Global Recession
  • 1.1.3 A Strong Foundation
• 1.2 Goal and Scope of This Report
• 1.3 Methodology and Information Sources for This Report
• 1.4 Plan of This Report

Chapter Two: Applications and Forecasts

• 2.1 Introduction
• 2.2 Forecasting Methodology
  • 2.2.1 Forecasts-based on Material Content
• 2.3 Analysis of OLED Materials Requirements by Application
  • 2.3.1 Low Information Density Displays
  • 2.3.2 Small Format High Density Displays
  • 2.3.3 OLED Lighting
  • 2.3.4 Large Format High Information Density Displays
• 2.4 Eight-Year Forecast of OLED Display Materials Demand by Application
• 2.5 Eight-Year Forecast Of OLED Lighting Materials Demand By Application
• 2.6 Summary of Eight-Year Forecasts of OLED Materials Demand by Application
• 2.7 Eight-Year Forecast of OLED Materials: Small Molecule vs. Polymer
• 2.8 Eight-Year Forecast of OLED Materials: Small Molecule
• 2.9 Eight-Year Forecast of OLED Materials: Polymer
• 2.10 Summary of Eight-Year Forecasts of OLED Materials
• 2.11 Eight-Year Forecast of OLED Substrates
• 2.12 Key Points in This Chapter

Chapter Three: OLED Technology and Materials

• 3.1 Introduction
• 3.2 Polymer and Small-Molecule OLEDs
• 3.3 Options for OLED Stacks
  • 3.3.1 Top Emitting Vs. Bottom Emitting Designs
  • 3.3.2 Adding Additional Layers
  • 3.3.3 Doping
  • 3.3.4 Stacked Devices
  • 3.3.5 Light Coupling Structures and Layers
• 3.4 OLED Materials
  • 3.4.1 Emissive Layer (EML) Materials
  • 3.4.2 Hole Injection Layer (HIL) Materials
  • 3.4.3 Hole Transport Layer (HTL) Materials
  • 3.4.4 Electron Blocking Layer (EBL) Materials
  • 3.4.5 Hole Blocking Layer (HBL) Materials
  • 3.4.6 Electron Transport Layer (ETL) Materials
  • 3.4.7 Electron Injection Layer (EIL) Materials
  • 3.4.8 Electrode Materials
  • 3.4.9 Encapsulation and Barrier Coating Materials
• 3.5 OLED "Inks"
  • 3.5.1 Polymer Inks
  • 3.5.2 Small-Molecule Inks
• 3.6 Substrates for OLEDs
  • 3.6.1 Glass
  • 3.6.2 Plastic
  • 3.6.3 Foil
• 3.7 Key Points in this Chapter

Chapter Four: Supplier Profiles

• 4.1 Introduction
• 4.2 3M
• 4.3 Add-Vision
• 4.4 Agfa
• 4.5 BASF
• 4.6 Cambridge Display Technology (CDT)
• 4.7 Ciba Specialty Chemicals
• 4.8 Corning
• 4.9 DuPont
• 4.9.1 DuPont Teijin Films
• 4.10 Eastman Kodak Company
• 4.11 GE Global Research
• 4.12 H.C. Starck Group
• 4.13 Hodogaya Chemical Company
• 4.14 Idemitsu Kosan
• 4.15 Konica Minolta
• 4.16 LG Chemical
• 4.17 Lumiotec
• 4.18 Merck/EMD
• 4.19 MODISTECH
• 4.20 Nippon Steel Chemical Co., Ltd.
• 4.21 Nissan Chemical Industries
• 4.22 Novaled
• 4.23 OSRAM Opto Semiconductors
• 4.24 Philips Lighting
• 4.25 Plextronics
• 4.26 Polar OLED
• 4.27 PPG Industries
• 4.28 Samsung Mobile Display (SMD)
• 4.29 Sumation
• 4.30 Universal Display Corporation (UDC)
• 4.31 Vitex Systems
• Acronyms and Abbreviations Used in this Report
• About the Author

List of Exhibits

• Exhibit E-1: Summary of Eight-Year Forecasts of OLED Materials
• Exhibit E-2: Summary of Eight-Year Forecasts of OLED Substrate Demand ($ Millions)
• Exhibit 2-1: Eight-Year Forecasts of OLED Displays in Mobile Phones and PDAs
• Exhibit 2-2: Eight-Year Forecasts of OLED Displays in Portable Media Players
• Exhibit 2-3: Eight Year Forecasts of OLED Displays in Televisions
• Exhibit 2-4: Eight-Year Forecasts of OLED Displays in Computers
• Exhibit 2-5: Eight-Year Forecasts of OLED Displays in Portable DVD Players
• Exhibit 2-6: Eight-Year Forecasts of OLED Displays in Digital Cameras
• Exhibit 2-7: Eight-Year Forecasts of OLED Displays in Digital Picture Frames
• Exhibit 2-8: Summary of Eight-Year Forecasts of OLED Displays (thousands sq m)
• Exhibit 2-9: Eight-Year Forecasts of OLED Lighting
• Exhibit 2-10: Summary of Eight-Year Forecasts of OLED Display Materials Demand
• Exhibit 2-11: Summary of Eight Year Forecasts of OLED Lighting Materials Demand
• Exhibit 2-12: Summary of Eight Year Forecasts of Total OLED Materials Demand
• Exhibit 2-13: Summary of Eight-Year Forecasts of OLED Materials: Small Molecule Vs. Polymer
• Exhibit 2-14: Eight-Year Forecasts of SM OLED Materials: Cathode
• Exhibit 2-15: Eight-Year Forecasts of SM OLED Materials: EML
• Exhibit 2-16: Eight-Year Forecasts of SM OLED Materials: ETL
• Exhibit 2-17: Eight-Year Forecasts of SM OLED Materials: HTL/EBL
• Exhibit 2-18: Eight-Year Forecasts of SM OLED Materials: HIL
• Exhibit 2-19: Eight-Year Forecasts of SM OLED Materials: Anode
• Exhibit 2-20: Eight-Year Forecasts of SM OLED Materials: Encapsulation
• Exhibit 2-21: Summary of Eight-Year Forecasts of SM OLED Materials ($ Millions)
• Exhibit 2-22: Eight-Year Forecasts of Polymer OLED Materials: Cathode
• Exhibit 2-23: Eight-Year Forecasts of Polymer OLED Materials: EML
• Exhibit 2-24: Eight-Year Forecasts of SM Polymer Materials: HTL/EBL
• Exhibit 2-25: Eight-Year Forecasts of Polymer OLED Materials: HIL
• Exhibit 2-26: Eight-Year Forecasts of Polymer OLED Materials: Anode
• Exhibit 2-27: Eight-Year Forecasts of Polymer OLED Materials: Encapsulation
• Exhibit 2-28: Summary of Eight-Year Forecasts of Polymer OLED Materials ($ Millions)
• Exhibit 2-29: Summary of Eight-Year Forecasts of OLED Materials (SM and Polymer Combined)
• Exhibit 2-30: Eight-Year Forecasts of OLED Substrate Demand: Glass
• Exhibit 2-31: Eight-Year Forecasts of OLED Substrate Demand: Plastic
• Exhibit 2-32: Eight-Year Forecasts of OLED Substrate Demand: Foil
• Exhibit 2-33: Summary of Eight-Year Forecasts of OLED Substrate Demand ($ Millions)
• Exhibit 4-1: 3M Barrier Film
• Exhibit 4-2: Add-Vision Printed P-OLED
• Exhibit 4-3: White OLED Tile with Orgacon PEDOT:PSS
• Exhibit 4-4: Corning' s Vita Encapsulation System
• Exhibit 4-5: Properties of the Teonix Film
• Exhibit 4-6: Clevios Formulations
• Exhibit 4-7: Merck' s OLED Materials
• Exhibit 4-8: Novaled' s PIN Technology
• Exhibit 4-9: Performance of Sumation Polymer OLED Materials (SID 2008)
• Exhibit 4-10: Polymer OLED Materials Available from Sumation
• Exhibit 4-11: Cross Section of Barix

Press Release

OLED Lighting Materials Need Substantial Improvement

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