Countries covered: United States
While there have been a number of articles in the popular press telling of switchable materials and the markets for these goods, there has been little agreement as to how many of these goods are being produced, and how useful these materials really are. Like many modern materials, switchable materials will be produced in small volumes and often integrated into a finished product during the manufacturing process. However, the impact of switchable materials belies their small production quantities. Already, these goods have been able to dominate some markets with several hundred million dollars in sales. While switchable materials are expensive to develop, these goods also can offer revolutionary technology, which could replace existing technology in some major applications in electronics and telecommunications. This report takes a hardheaded look at three categories of switchable materials, ferroelectrics, chromogenics, and optical switching materials and describes their products and markets. The report covers applications for these materials ranging from automotive mirrors to personal computers and cell phones. Forecasts for the various markets discussed are provided through 2006.
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Additional InformationOBJECTIVE AND PURPOSE OF THIS REPORT
The focus of this report is on the market for switchable materials and their applications. There has been enormous interest in the commercialization of switchable materials in a variety of industries, and a few applications have met with commercial success. This report focuses on three types of switchable materials, ferroelectrics, chromogenics (electrochromics), and materials used for optical switching. This report evaluates the markets and applications for these materials primarily in the U.S. In most cases, the U.S. remains the leader of the technological development of these goods, and the largest current market.
Switchable materials have been generating a certain amount of interest in the media for the past few years, but there is still a fair amount of mystery as to their purpose and function. Since switchable materials are so disparate, it is not surprising that conferences, reviews, and academic publications describing these goods are rather rare. Thus, there is no switchable materials industry (although there are firms producing switchable materials), no switchable materials society, and relatively few academics style themselves "professor of switchable materials." Nevertheless, there is a fair amount of "buzz", and an increasing level of interest, especially as these materials are poised to have major impacts on a number of different markets.
Given that switchable materials covers a lot of ground, it is not surprising that the materials covered in this report are found in a wide variety of applications. Ferroelectrics have been developed into nonvolatile memory that can be found in electricity meters, office equipment, and automobile airbags, with more applications on the way. Electrochromics are used in automotive mirrors and a few architectural and aerospace applications, while optical switching materials are key components in optical switches already installed in telecommunications networks. In most cases, these are nascent applications of these goods, thus if certain technological barriers are overcome, it is possible that these materials will play an increasing role in these markets.
Like a number of materials used in modern applications, such as semiconductors, switchable materials will not be required in large volumes. Quite often, 10 pounds of a switchable material would be sufficient for a particular application for several years, even at full production.
This report takes a long hard look at switchable materials, and finds reasons for both excitement and caution. Years of research and development are beginning to bear fruit. Products based on ferroelectrics, electrochromics, and even optical switching materials, have some measure of commercial success. This is a qualified success however, and for these materials to justify the enormous costs of development, further commercial success is required.
However, a cautious approach to evaluate switchable materials and their applications is still warranted since vapor markets for these materials abound. Switchable materials are fascinating, such as electrochromics that change color when a voltage is applied.
These goods can seem straight out of the pages of science fiction, and it is clear that some investors have thrown caution to the wind when providing capital to firms attempting to make commercial products from these goods. Conventional materials often prove more attractive when economics enters the picture. In some cases, switchable materials would find a market in architectural applications if production costs were decreased, but success is by no means assured. As a further cautionary note, firms trying to develop optical switches based on switchable materials received large infusions of cash from investors, often over $100 million for relatively small firms with no saleable products. These investors expected a rapid return on their investment, but to date, most have been faced with high losses instead of large returns.
This report covers the industries that use switchable materials, which include ferroelectrics, chromogenics, and materials used for optical switching. Different business models abound in these industries. Ferroelectrics are being used to produce ferroelectric random access memory (FRAM) chips. In this case, the switchable material is fully integrated into the production process. Chromogenics can either consist of a coating applied to a glass substrate during the production process, or they can be applied as a film to a polymer post-production. Optical switching materials can be purchased from outside vendors, or they can be fully integrated into the production process as well. Some firms have tried to use vertical integration to produce these goods, since the largest profits are generally seen in applications. The report compares products that make use of switchable materials with conventional counterparts, and shows why a particular application of a switchable material may be successful, where other applications of switchable materials will probably fail.
With this information, readers with business interests can then make sound judgments regarding marketing strategies, investment decisions, or strategic plans concerning the markets of switchable materials. This report has been written to be readily accessible to those readers with a business background, but accuracy concerning the technical aspects of switchable materials has not been sacrificed.
REASONS FOR THIS STUDY
While there has been some interest in the popular press concerning the wonders of switchable materials, it is often difficult to get solid information on where and how much of these materials are being sold. Many popular sources have presented a very incomplete picture, especially since some estimates for the size of the switchable materials market have been based more on wishful thinking than careful calculations.
CONTRIBUTION OF THE STUDY
This report shows the size of the markets for switchable goods in the U.S. and their applications in specific industries. Most of the research and development of these materials has been done domestically because the U.S. market remains the largest single customer for some of the more lucrative switchable material applications.
Readers of this report will be able to distinguish the hype concerning the uses of switchable materials from the reality of the market. Many of the successful applications of these materials have received relatively little press. This report covers the probable markets for these goods, and discusses realistic time frames for the development of successful applications. It must be noted that in many cases, the technology of switchable materials is immature, and predicting when a technological breakthrough will occur is, by its nature, a highly speculative process. This report does not focus on vapor applications that may occur a decade away, instead this report focuses on market developments relevant for the next 5 years.
SCOPE AND FORMAT
In order to generate the information needed to construct a reasonable future market for switchable materials, it is necessary to take a hardheaded look at the potential advantages and pitfalls of the current crop of switchable materials compared with conventional materials. Some applications of switchable materials that are possible within 5 years are also discussed.
This report covers switchable materials in two categories:
Switchable materials which have been developed for years, such as ferroelectrics and chromogenics, and are now, finally, finding some commercial success.
Materials used in optical switches, such as MEMs liquid crystals, integrated silicon chips and polymers. These materials are largely adaptations of materials developed for other markets that are now being used or developed for switchable products.
This report does not cover all types of switchable materials, or new compounds that could conceivably be used in switchable applications, instead this report is restricted to materials currently being used in products or being developed for commercial use. This report does not cover developments in academe, which may have potential applications some years away. It is important to realize that nearly all of the materials being developed for optical switches are based on developments in other industries. MEMs technology, liquid crystals, and most of the polymers being used in optical switches were all developed for applications other than optical switches. PZT is widely used outside the FRAM industry. Clearly, all of these materials have been developed for non-switchable applications and the use of these materials in these other applications falls outside the scope of this report. Therefore, this report does not cover the entire market for MEMs products, liquid crystals or polymers.
The report is broken into five sections. First there is an overview which gives the working definition of switchable materials, along with some of the theory and restrictions on how these materials function. This overview also contains general characteristics of the applications utilizing switchable materials. Next there is a thorough description of the industries of switchable materials manufacturers with company profiles. Following this industry section, there is a description of the available switchable materials, and switchable materials that have a strong possibility of commercialization in the near future. The report concludes with the market applications of these materials. This report does not include extensive sections on the patent literature of switchable materials. While there are commercially relevant patents in the field, most patents describing applications of these materials are valueless. Furthermore, rarely do patents on switchable materials indicate future directions of the marketplace.
METHODOLOGY AND SOURCES OF INFORMATION
This report is the end result of 5 months of concerted effort by the author. The primary sources of information for writing this report came from interviews with several dozen people in industry and academe. Many of the people interviewed are recognized authorities in the field, and provided invaluable assistance and insight, and I would like to thank all who took the time to speak with me for their help with this project.
Secondary sources include a number of publications put out by the federal government, and also include items on the Internet, corporate literature, publications in the peer-reviewed literature, and meetings.
Dollar amounts are in constant 2001 dollars, and average annual growth rates (AAGR) are calculated using standard tables.
It should be noted that this report was being compiled when the September 11, 2001 terrorist attacks on the U.S. occurred. It is probable that, short term, the fallout of the weakened economy from these attacks will affect many industries, but wartime economies frequently become stronger. While there is a great deal of uncertainty concerning world events at the present time that will dampen enthusiasm for new materials and products, it is unlikely that any of the materials and products covered in this report will be directly affected by world affairs. Instead, end markets may not grow as quickly as forecast, but that is difficult to quantify.
ANALYST'S CREDENTIALS
The analyst has published over 10 reports at BCC, several of which relate directly to this report. The author has also performed custom studies for BCC, and presented original research to corporate clients. The author earned a Ph.D. in inorganic chemistry researching the formation of chromium complexes in an interdisciplinary group and is a member of SAMPE.
Title
Introduction
Objective And Purpose Of This Report
Reasons For This Study
Contribution Of The Study
Scope And Format
Methodology And Sources Of Information
Analyst’s Credentials
Related Bcc Publications
Reports
Monthly Newsletter
Bcc On-Line Services
Summary
Technology Overview
Introduction
Comparison With Smart Materials
Ferroelectrics
A Brief History Of The Ferroelectric Effect
How Do Ferroelectrics Work?
The Ease Of Reading/Writing To A Ferroelectric Bit
Size Of The Capacitor
Number Of Cycles
Chromogenic Materials
Strong Color Changes
Low Energy Reaction
Fast Kinetics
Coupling To An Electrical Field
Stability
Temperature Sensitivity
Processability
Comparing Chromogenics With Photochromics And Lcds.
Liquid Crystals And Suspended Particle Devices
A Brief History Of Suspended Particle Devices
Control Of Suspended Particle Devices
Electrochromics
Organic Electrochromics
Inorganic Electrochromics
Optical Switching Materials
Demands Of The Telecommunications Industry
Why Use Light?
Control
Interaction
Storage
Mediums
Speed And Information Density
The Amplification Issue
The Optical-Electronic-Optical Transformations
First Generation Switches
Second Generation Switches
Third Generation Switches
Technologies
Mems Technology
Liquid Crystals
Integrated Optical Silicon Technology
Polymer Technology
Industry Structure
The Patent Problem In Switchable Materials
Funding For Switchable Materials
Ferroelectric Switchable Materials
A Brief History Of The Fram Chip Development
The Major Players
The Smaller Players
Types Of Fram Chips
Rumors
Requirements For Fram Research
Outsourcing Of Fram Production
Raw Materials
Purchasers Of Fram Chips
Chromogenic Materials
Firms Producing Organic Electrochromics
Firms Producing Inorganic Electrochromics
Architectural Applications
Printing/Display Applications
Firms Producing Suspended Particle Devices
Licensing Costs
Aerospace Applications
Other Applications
Optical Switching Materials
The Telecommunications Industry
Roots Of The Industry
The Optical Switching Industry
Firms Developing Optical Switches Based On Switchable Materials
Optical Switching Technologies
Raw Materials
Production Technology
The Mems Industry
Mems Fabric Manufacturers
Mems Optical Switch Manufacturers
Other Switch Technologies Based On Switchable Materials
Purchasers Of This Technology
Bottlenecks In The Telecommunications Industry
The Testing Issue
Software
Company Profiles
Ampy Automation Digilog Limited
Analog Devices
Calient Networks
Confluent Photonics Corporation
Donnelly Corporation
Gentex Corporation
Inspectech Aero Service, Inc.
Lucent Technology
Pilkington Plc
Ramtron International Corporation
Research Frontiers, Inc
Telephotonics, Inc.
Products
Ferroelectrics
Comparison Of Ferroelectric Chips To Conventional Chips
Overview Of Chip Applications
A Brief History Of Fram Chip Production
Comparison Of Pzt And Sbt Fram Chips
Short Term Applications Of Fram Chips
Battery Backed Static Random Access Memory (Bbsram)
Electrically Erasable Programmable Read Only Memory (Eeprom)
Limited Number Of Cycles
Latency
Asymmetric Read/Write Times
Market Forces In Eeprom
Fram Chips
Technology Developments In Fram Chips
Decreased Voltage
Improved Pzt
Improvements In The Top And Bottom Capacitor Layers
Pricing Of Fram To Eeprom
Current Performance Enhancements
Current And Near Future Trends For Fram Chips
Pricing
Markets For Low Density Non-Volatile Memory
What Will Happen To The Market For Fram Chips Now?
Long Term Applications Of Fram Chips
Trends In Flash Memory
Current Disadvantages Of Flash Memory
Limited Scalability
Chromogenic Materials
A Brief History Of Light Control Materials
Comparing Chromogenic And Photochromic Technology
Control
Energy Costs
Transmission Change
Longevity
Response Time
Temperature Sensitivity
Cost
Chromogenic Technologies: Liquid Crystals, Suspended Particle Devices, And Electrochromics
Liquid Crystals
Suspended Particle Devices (Spd)
Pricing Of Suspended Particle Devices
Electrochromic Technologies
Organic Electrochromics By Type
Inorganic Electrochromics
New Technology Electrochromics
Comparing The Available Technologies
Cost Of Raw Materials
Production Costs
Substrates
Durability/Longevity
Transmission/Color Change
Types Of Control
Response Times
Markets For Chromogenic Materials
Automotive Applications
Architectural Applications
Aerospace Applications
Display Applications
Compatibility
Performance
Eyewear Applications
Prescription Eyewear
Sporting Goods Industry
General Industry
Summary Of Chromogenics By Type
Optical Switching Materials
Types Of Products
Comparison Between The Technologies
Applications
Potential For Low Cost Production
Optical Switches
Optical Switch Properties
Switch Size
Power Consumption
Installed Size
Losses
Speed
Increased Functionality
Scaleability
Robust Design
Reliability
Optical Switch Technologies
Mems Technologies
2d Mems Technology
3d Mems Technology
Comparison Of 2d And 3d Mems Technologies
Ports
Control Of Mirrors
Power Consumption
Beam Monitoring
Recovery From Power Failure
Sales Of 2d And 3d Mems Products
Liquid Crystal Technology
Polymer Technology
Integrated Silicon Optical Chips
Bubble Technology
Summary Of Markets For Optical Switches
Market Applications
Ferroelectric Materials
Near Term Markets
Industrial/Residential Controls
Global Trends In Power Metering
Trends In Meter Technology
New Trends In The Electrical Power Industry
Fram Usage In Meter Technology
Is It Logical To Use Fram Technology In An Electricity Meter?
Office Equipment
Automotive Markets
Longer Term Markets
Telecommunications
Personal Computers
Chromogenic Applications
Automotive Applications
The Patent Situation
Global Production Of Mirrors
Interior Mirror Applications
Trends In Automotive Interior Mirrors
Pricing Trends
Exterior Automotive Electrochromic Mirror Applications
Types Of Exterior Mirrors
Aerospace Applications
Why Use Switchable Glazings In Aircraft?
Economic Rationale
Cost Of The Window Treatment
Energy Costs
Air Conditioning Costs
Refurbishment Costs
Weight Reduction
Flammability
Controllability
Market Cachet
The Aviation Market
Architectural Applications
Why Would Chromogenic Windows Be Popular?
Residential And¾The Two Markets For Chromogenic Windows Commercial
Cost
Energy Savings
Longevity
Aesthetics
Privacy
Summary Of Markets For Chromogenic Materials
Optical Switching Materials
Trends In Telecommunications
Amount Of Traffic
Revenues
Spending On Installation Of Networks
Profitability
Costs
Comparing Voice And Data
Size Requirements
Development Time
Time Requirements
Reduced Long Haul Cable Expansion
Financial Trends
The Metro Boom
Increased Flexibility And Decreased Provisioning Time
Optical Switches In The Metro Region
Reliability
Increased Functionality
Scaleability
Adds Revenue
Reduced Cost
Comparing Oeo And Ooo Switches
Number Of Boxes
Well Proven Technology
Power Consumption
Scaleability
Granularity
Bit Rate Dependence
Markets For Optical Switches In Telecommunications
List Of Tables
Summary Table:
Worldwide Market Applications Of Switchable Materials, Through 2006
1 Comparison Of Smart Materials And Switchable Materials
2 Requirements For Useful Chromogenic Materials
3 Comparison Of Various Chromogenic Technologies
4 Comparison Of Light And Electricity For Information Transport
5 Three Generations Of All Optical Switching
6 Comparison Of Thermal And Voltage Control Of Polymer Technology
7 Developers Of Fram Chip Technology
8 Fram Production Agreements
9 Purchasers Of Fram Chips
10 Organic Electrochromic Producers
11 Firms Researching Inorganic Electrochromics
12 Research Frontiers, Inc. Research, Development And Production Chain
13 Firms In Telecommunications
14 Firms Producing Products For The Metro Optical Market
15 Firms Producing Switching Fabrics For Mems
16 Firms Producing Mems Based Optical Switches And Components
17 Firms Developing Polymer, Bubble, Liquid Crystal, And Silicon Technologies
18 Relative Costs To Produce Goods In Telecommunications
19 Comparison Of Volatile And Non-Volatile Memory
20 Comparison Of Non-Volatile Memory Technology
21 Historical Problems With Fram Chips
22 Comparison Between Pzt And Sbt Ferroelectric Chips
23 Current Sram Markets By Speed Of Chip, 2000
24 Comparison Between Eeprom And Flash
25 Drawbacks To Eeprom Chips
26 Technological Advances Affecting Fram Chips
27 Comparison Of 2t2c And 1t1c Memory Cell Architecture
28 Factors Affecting Market Acceptance Of Fram Chips
29 Worldwide Sales Of Low Bit Density, Non-Volatile Memory Chips Including Fram, Low Speed Bbsram, And Eeprom, Through 2006
30 Worldwide Market For Fram Chips By Type, Through 2006
31 Worldwide Market For Fram Chips By Type, Through 2006
32 Comparison Between Photochromic And Chromogenic Technology
33 Worldwide Market For Organic Electrochromic Materials By Type, Through 2006
34 Worldwide Market For Inorganic Electrochromic Materials By Type, Through 2006
35 Comparison Of Newer Chromogenic Technologies
36 Comparing Lcd And Suspended Particle Device Technology For Display Applications
37 Worldwide Markets For Chromogenic Materials By Type, Through 2006
38 Comparison Of Technologies In Optical Applications
39 Comparison Of Various Technologies Used For Optical Switches
40 Comparison Between 2d And 3d Mems Technology
41 Worldwide Sales Of Mems Based Optical Switches, Through 2006
42 Worldwide Unit Sales Of Mems Based Optical Switches, Through 2006
43 Comparison Of Nematic And Ferroelectric Liquid Crystals Used In Telecommunications Arrays
44 Worldwide Sales Of Liquid Crystal Based Optical Switches, Through 2006
45 Worldwide Unit Sales Of Liquid Crystal Based Optical Switches, Through 2006
46 A Comparison Between The Thin Film Silicon Technology And Thick Film Silicon Technology
47 Summary Of Worldwide Markets Of Optical Switches Based On Switchable Materials, Through 2006
48 Summary Of Worldwide Unit Sales Of Optical Switches Based On Switchable Materials, Through 2006
49 Comparison Of Solid State And Electromechanical Meters
50 Conversion Of Residential/Light Industrial Meter Applications From Electromechanical To Solid State In The Uk
51 Comparison Between Single Phase And Multi Phase Electric Meters
52 Comparison Between Chip Types In Whole Current Meter Applications
53 Global Meter Market With Fram Chips, Through 2006
54 Global Meter Unit Market With Fram Chips, Through 2006
55 Global Office Equipment Market With Fram Chips, Through 2006
56 Global Office Equipment Market With Fram Chips, Through 2006
57 U.S. Airbag Market With Fram Chips, Through 2006
58 U.S. Airbag Market With Fram Chips, Through 2006
59 Global Cellular Phone Market With Fram Chips, Through 2006
60 Global Cellular Phone Market With Fram Chips, Through 2006
61 U.S. Personal Computer Market With Fram Chips, Through 2006
62 U.S. Personal Computer Market With Fram Chips, Through 2006
63 North American Market For Interior Mirrors, Through 2006
64 North American Market For Interior Mirrors, Through 2006
65 List Of Possible Applications Added To Interior Rear View Mirrors
66 North American Production Of Exterior Mirrors, Through 2006
67 North American Production Of Exterior Mirrors, Through 2006
68 Economic Comparison Between Switchable Glazings And Window Shades On Aircraft
69 Global Markets For Switchable Window Treatments In Aircraft, Through 2006
70 Markets For Switchable Window Treatments In Aircraft, Through 2006
71 Comparison Of Chromogenic Windows To Conventional Windows
72 Worldwide Market For Switchable Glazings In Architectural Applications, Through 2006
73 Worldwide Market For Switchable Glazings In Architectural Applications, Through 2006
74 Global Chromogenic Applications, Through 2006
75 Overall Trends In Telecommunications
76 Comparison Between Voice Traffic And Data Traffic In Telecommunications
77 Comparison Of Real Time And Best Effort Transmission
78 Long Term Trends In Fiber Optic Telecommunications
79 Demands Of Telecommunications Companies For Optical Switches Used In The Metro Market
80 Comparison Of Ooo And Oeo Switches
81 Market For Optical Switches, Through 2006
82 Existing Major Switch Sites, 2001
List Of Figures
Summary Figure:
Worldwide Market Applications Of Switchable Materials, 2001 And 2006
1 Worldwide Sales Of Low Bit Density, Non-Volatile Memory Chips Including Fram, Low Speed Bbsram, And Eeprom, 2001 And 2006
2 Worldwide Market For Organic Electrochromic Materials By Type, 2001 And 2006
3 Worldwide Markets For Chromogenic Materials By Type, 2001 And 2006
4 U.S. Airbag Market With Fram Chips, 2001 And 2006
5 North American Market For Interior Mirrors, 2001 And 2006
6 Worldwide Market For Switchable Glazings In Architectural Applications, 2001 And 2006
7 Global Chromogenic Applications, 2001 And 2006
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