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Organics for Electro-Optical Applications: An Outlook for the Future
BCC Research - 1/1/2002 - 134 Pages - ID: WA763924
URL: http://www.marketresearch.com/product/display.asp?productid=763924
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Abstract
The present study analyzes the unique role of organic and polymeric materials in high-performance photonic devices, which have recently appeared to gain the recognition of the electro-optical scientific and industrial communities. Organics-based devices are now experiencing accelerated development efforts as dictated by the telecommunication, optical storage and display markets. The organic active electro-optical components, such as OLEDs, will be the focus of the following report. OLEDs are seen as future replacement technology for Cathode Ray Tubes (CRTs) and Liquid Crystal Displays (LCDs), which currently dominate the growing, $40 billion annual electronic display market. The report will analyze the present status of the technological developments, gaps and unresolved issues, as well as the economical parameters of organic-based electro-optical components and devices. It will, further, provide evaluations as to future potential technological achievements and market estimates.
Table of Contents
Title
Introduction
Study Goal And Objectives
Reasons For Doing The Study
Contribution Of The Study And For Whom
Methodology And Information Sources
Bcc Information And Related Reports
Summary
Industry Overview
Definition Of The Subject
Terminology
All-Optical Networks
Attenuation
Bandwidth
Cable, Fiber Optic
Ccd
Cmos
Conjugated Conducting Polymers
Crt
Decibels (Db)
Dispersion
Foled
Fpd
Graded Index
High Information Content Display
Index Of Refraction/Refractive Index
Laser
Led
Lep
Lightguide
Liquid Crystals
Lcd
Low Information Content Display
Multiplexing
Nanotechnology
Oled
Optical Demultiplexer
Optical Modulators
Optical Networking Market
Organic Transistors
Pixels
Pof
Polymer Switches
Semiconductor Lasers
Smf
Soled
Tft
Toled
Wdm
Scope Of The Field
Importance Of Organic-Based Electro-Optics
History Of Organic-Based Electro-Optics
How Organic-Based Electro-Optics Affect Other Related Industries
Bandwidth Growth
Optical Networks
Photonics
Lasers
Consumer Markets
Displays
Related Market Forecasts
Display Materials
Oled
Active Devices
Optical Storage
Organic Lasers
Plastic Optical Fibers (Pof)
Major Product Categories
Major Markets/Application Categories
Display Markets
Telecommunications And Photonics Markets
Lasers And Optics Markets
Important Industry Indicators
Technological Parameters
Marketplace Parameters
Major Issues And Forces For Change
Global Economic And Geopolitical Changes
Market Index
Political And National Forces
Consumer Needs
Additional Major Issues That Affect The Field
Industry
Industry Structure
Company Ownership
Mergers And Acquisitions
Dupont
Cdt
Product Diversity
Company Size
Major Funding Sources
Industry Participants
Industry Leaders
Cambridge Display Technology Ltd. (U.K.)
Curent Strategy
Eastman Kodak
Current Strategy
Important Industry Players
Dynamics Of The Business
Outsourcing
Market Needs
Influence On Sales
Relative Advantage
Pricing
Operational Costs
Product Distribution Channels
Customers
Technology
Major Technologies
Special Polymer Groups
Conjugated Organic Polymers
Nonlinear Optical Polymers
Components And Devices Technologies
Oled/Lep Technology
Diode Structure
Performance
Reliability
Fabrication
Liquid Crystal Technology
Switching
Nanostructure Technology
Polymer Waveguide Technology
Materials And Applications
Fabrication
Organic-Based Optical Switching
Application
Technical Advances
Natural Proteins As Potential Optical Switches
Polymer-Based Holographic Data Storage Technology
Materials
Challenges
Plastic Optical Fiber
Pof Advantages
Materials
Organic Lasers
Dye Lasers
Fullerene Technology
New Technological Developments
Patents
Patent Growth
Subjects Being Patented
Research And Development Leaders
Research Centers
Availability Forecast
Production-Level Quantities
Products
General Introduction
Active Devices
Applications
Drawbacks Of Current Products
Market Estimates
Introduction
Market Analysis By Application
Displays
Basic Assumptions
Telecommunications And Photonics
Basic Assumptions
Lasers And Optics
Present And Future Developments
Thin Film Fabrication
Molecular Packaging
Device Structuring
New Deposition Technologies
High-Resolution Organic Devices
New Organic Materials
Development And Improvement Of Current Technologies
Efficient Organic Leds And Lasers
Plastic Optical Fibers (Pofs)
Company Profiles
Agilent Technologies, Inc. (A Spin-Off Of Hp)
Asahi Glass Company, Ltd.
Cambridge Display Technology Ltd. (Cdt)
Canon, Inc.
Corning
Covion Ltd.
Dupont
E Ink Corp.
Eastman Kodak
Emagin Corp.
Kopin Corp.
Nec Corp.
Opticom Asa
Ormecon Chemie Gmbh & Co. Kg
Osram Gmbh
Philips Components, Inc.
Pioneer Corp.
Poly-Optical Products, Inc.
Seiko-Epson Corp.
Sharp Corp.
Sharp Electronics
Sumitomo Group
Tdk Corp.
Thin Film Electronics Ab
Three-Five Systems, Inc.
Uniax Corp.
Uniroyal Technology Corp.
Appendix: Abstracts Of Significant U.S. And Foreign Patents In The Field Of Organic Electro-Optics
U.S. Patents
Foreign Patents
List Of Tables
Summary Table: Forecast For Major Applications Based On Organic And Polymeric Materials, Through 2006
1 Important Acquisitions Made By Companies Involved In Organic-Based Electro-Optical Activities
2 Mergers And Partnerships Made By Companies Involved In Organic-Based Electro-Optical Activities
3 Major Participants In The Organic-Based Electro-Optics Market
4 Major Company Investments In Production Facilities
5 Materials Typically Used In Oled Technology And Their Functions
6 Examples Of Typical Structures Used In Oleds
7 Features And Benefits Of Organic-Based Light Emitting Diodes
8 Typical Materials That Have Potential For Use In Polymer Waveguides
9 Major Organic Materials Systems Developed For Use In Holographic Data Storage Devices
10 Major Technological Developments In The Field Of Organic-Based Electro-Optics
11 Number Of Organic Electro-Optical Materials Patents Issued Worldwide, 1971-2000
12 Organic-Based Electro-Optics Patents Assigned To Leading Companies Worldwide, 1990-2001
13 Major Company Research And Developments Groups And Their Activities In The Field Of Organic-Based Electro-Optics
14 Major Research And Development Groups In U.S. Universities And Research Institutes And Their Activities In The Field Of Organic-Based Electro-Optics
15 Major Research And Development Groups In Foreign Universities And Research Institutes And Their Activities In The Field Of Organic-Based Electro-Optics
16 Forecasted Timing Of Market Availability Of Organic Products On The Electro-Optical Market
17 Major Organic-Based Products In Current Use Vs. Devices
18 Characteristics Of The Most Commonly Used Organic/Polymeric Products
19 Chemical Compounds Vs. Most Commonly Used Products
20 Major Manufacturers And Their Principal Products And Characteristics
21 Drawbacks Of Available Devices Based On Organic Electro-Optical Devices
22 Display Market, Through 2006
23 Telecommunications And Photonics Markets, Through 2006
24 Laser And Optic Applications Markets, Through 2006
25 Key Present And Future Developments Of Organic Electro-Optical Materials
List Of Figures
Summary Figure: Forecast For Major Applications Based On Organic And Polymeric Materials, 2001 And 2006
1 Percent Of Patents For Organic-Based Electro-Optical Devices Assigned To Major U.S. And Foreign Companies, 1990-2000
2 Projected Relative Share Of Various Products Applied To Display, 2006
3 Sales Of Various Organic Electro-Optical Products By Display Application, 2001, 2002, 2003, And 2006
4 Sales Of Various Organic Electro-Optical Products By Telecommunications And Photonics Applications, 2001, 2002, 2003, And 2006
5 Projected Relative Share Of Various Products Applied To Telecommunications And Photonics, 2006
More Details
STUDY GOAL AND OBJECTIVES
This BCC report covers the emerging electro-optics industry based on organic and polymeric materials. It provides a detailed discussion of the market situation and an analysis of economic parameters such as market volumes, needs and opportunities within. The report also analyzes organic-based electro-optical devices divided between current (2001) and future (2002-2006) applications in the following areas:
displays
telecommunications and photonics
lasers and optics
The major goals of this study are:
to investigate the current applications and future potential of organic and polymeric electro-optical devices based on various types of products and applications
to characterize and analyze current and future worldwide markets for the key existing and potential applications of organic-based electro-optics
to analyze the relative strength of various products and applications
to identify and analyze the major industrial players actively involved in various aspects of the field of organic-based electro-optics: materials, components, devices and financial strengths
to analyze the drawbacks of available electro-optical products based on organic and polymeric materials
to identify current major developments relating to materials used for electro-optical devices, devices and systems
to analyze the technology, patents, and major research and development players in the field.
This study analyzes the unique role of organic and polymeric materials in high-performance active photonic devices. Organics can be used for photonic devices both as passive elements (gratings, fibers, lenses and prisms) as well as active components (light emitting diodes, modulators, molecular switches, semiconducting lasers, plastic transistors, frequency doublers, optical memories and more).
The advantages of organic materials as building blocks for photonic devices over current alternatives, is their promise to lead to cheaper and lighter devices, greater color variety, tunability, further miniaturization and easier processing and mechanical flexibility. Furthermore, organic materials have the potential for use in applications that are not accessible to conventional inorganic semiconductors.
REASONS FOR DOING THE STUDY
This study is a consequence of the fact that photonic devices fabricated from organic and polymeric materials now are gaining recognition and attention of the electro-optical industrial community. As a result, organic-based devices are currently experiencing accelerated development efforts as dictated by the telecommunications, optical storage and display markets.
Advantages of the fabrication of organic materials into electro-optical devices, as well as enormous information age market potential, have long been recognized. However, only now do these technologies appear to be reaching a critical mass as the next generation in several key technologies. Driving this trend are continuing and accelerating developments in both manufacturing process technology, including novel nano designs and fabrications, and new materials systems.
CONTRIBUTION OF THE STUDY AND FOR WHOM
This BCC report is intended to provide a broad but concise overview of the market potential and business opportunities for organic and polymeric-based electro-optical devices. This will be done through analysis of organic and polymeric-based electro-optical devices, their current and potential applications, major technological developments and still existing gaps, market characteristics, major players in the field, their market strength, and potential products as well as applications. Also, a detailed patent analysis and financial survey of the main players will be provided, and major contributors will be emphasized.
The study is intended for those who are interested in:
exploring needs with regard to efficient, compact, reliable electro-optical devices and systems that use organic and polymeric materials
understanding market needs, especially fast-growing applications such as displays, light sources, and components for all-optical networks
understanding the market strengths of organic-based photonic products and devices.
During the last decade, there was an explosion of information pertaining to the field. As a result, it was difficult to focus on key efforts involving promising applications and potential markets. Currently, there is a growing need to identify the main players and products in the field, to identify existing and potential applications and directions, and to assess the worldwide market potential for organic-based electro-optical related products and applications.
To the best of our knowledge, this report is the first comprehensive effort that intends to cover most of the available and potential industrial applications for organic-based electro-optics. Other recent and similar reports appear to focus on specific applications such as displays. These are, indeed, the most familiar and ready-to-market application.
This study is directed to strategic planners, marketers, forecasters, product managers, new business developers and decision makers in companies that deal with materials and applications and belong in one of the following categories: the chemical and electro-optical industries, industries considered end-users of photonic devices, and research and development institutes.
This report provides a thorough analysis of present and potential markets and applications, and applications of organic and polymeric-based electro-optics. It will specifically emphasize the following:
assessments of the main products, devices, applications and companies that are active in the field
analyses of technological merits of the main players and their financial records
identification of present and future applications
specification of needs and possible solutions
assessments of industry structure
identification of major participants and the dynamics of the business
analyses of major technologies, products and devices
analyses of new technological developments
forecasts of market values per application and annual growth rates (AAGRs)
analyses of drawbacks of current products, and needs that seek solutions.
METHODOLOGY AND INFORMATION SOURCES
The analyses presented in this study are based on information derived from professional journals, technical literature, specific information and catalogs, and on-line sources. In addition, we conducted interviews with industry leaders and sources mostly in the United States and Europe and in some of the Pacific Rim countries, as well as with several researchers in leading universities. We also analyzed available on-line and commercial sources that contained relevant financial and market information and added our own assessments to that information.
In addition, we consulted BCC reports that we considered relevant to the present topic. BCC has conducted several studies in the field of electro-optics and optical materials. We think this report adds an additional dimension to reports already in existence, i.e., market-oriented technological analyses and forecasts of the dramatically increasing field of organic and polymeric-based electro-optics.
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