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市場調查報告書

導電性高分子

Electroactive Polymers

出版商	BCC Research
出版日期	2006年01月	商品編碼	35496
內容資訊	英文 199 pages 45 tables
價格	US $ 4850 Hard Copy US $ 4850 PDF by E-mail (Single User License)

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導電性高分子 是由出版商BCC Research在2006年01月所出版的。這份英文市場調查報告書包含199 pages 45 tables 價格從美金4850起跳。

簡介

2005年 ICP (導電性高分子)的市場規模有 6000 萬美元，電導性塑膠的市場規模則達到 7 億美元。整體導電性高分子市場由於電子裝置市場快速成長，以及行動電話、數位相機等持續成長市場其新產品需求增加的緣故，也呈現快速快長。

專門從事多種產業領域新興市場的策略性調查的 Business Communications Company, Inc.（總公司：康乃迪克州），針對導電性高分子市場進行調查分析與預測，並整理出版報告書 "Electroactive Polymers" 。

報告書內容包括：導電性高分子市場分析、發展中階段各材料的應用方式預測、增進材料使用效率的產業方針等等，內容綱要摘記如下：

序

研究的最終目標與目的
本研究的動機
本研究的參與者
本研究的範圍與形式
研究方法與資訊來源
相關報告
BCC 線上服務

摘要

導電性高分子簡介

背景
導電性高分子(ICPS)
使用分散結構的高分子(IDPS)
導電性塑膠
其他的導電性高分子

電子產業的產業趨勢

簡介
產業資訊

導電性高分子 (ICPS)

簡介
導電性高分子之概念
導電性高分子歷史認知變化
技術

導電性塑膠

背景
簡介
導電性塑膠製造技術

使用分散結構的高分子 (IDPS)

簡介
技術層面及問題

其他的導電性高分子

背景
技術

市場預測

導電性高分子
導電性塑膠

導電性高分子之應用

背景
導電性高分子
其他的導電性高分子

R&D 活動

最近的導電性高分子之專利取得活動

產業結構

執照／合資企業活動

主要導電性高分子產品線

企業資料

附錄

Electroactive polymers comprise several groups of materials such as conductive plastics, which are made from traditional thermoplastics containing fillers which render them conductive and are effective in providing electrostatic dissipative (ESD) and electromagnetic interference (EMI) protection. Another segment is made up of inherently conductive polymers (ICPs) which conduct electricity on their own, after being "doped." A third group is made up of inherently dissipative polymer (IDPs), which have been modified to become conductive, and there are other polymers with low dielectric constants which have potential in microelectronics applications.

Although conductive plastics mimic conductivity of metals (particularly copper and steel), insulative resins employing a conductive filler (e.g., metal or carbon powder or fiber) can achieve a measure of conductivity. However, there are generally compromises in terms of processibility or performance or total part economics, generating, the search for alternate "conductive plastics" such as ICPs and IDPs. Low dielectric polymer development is still in its infancy and is primarily targeted for flexible electronics.

Conductive plastics have been commercial for some time and by the mid-1990s, commercialization of ICPs was still in its very early stages. The development of IDPs followed, although almost all of the emphasis was focused on ICPs. Production of ICPs had been scaled up from grams to pounds, but overall global production and consumption totals was still negligible.

Even though several major companies had given up on ICPs, researchers and other commercial and educational institutions are pushing ahead. Literally hundreds of papers and patents on ICPs are published each year. Clearly, there are a great many scientists and corporations still optimistic about significant commercial successes for ICPs and, indeed, usage has increased over the last five years.

ICPs and IDPs "compete" with conductive plastics in a key area (ESD protection) and may be able to increase their respective positions in the coming years. Other new electroactive polymers are beginning to appear and may be capable of being the basis for a "plastic electronics revolution" with enormous consequences.

Some of the electronics-based applications that may or already have been affected by the advent of ICPs and other electroactive polymers include: flat panel displays, semiconductor transistors, anti-static packaging, capacitors, sensors, batteries, solar cells, conductive textiles/fabrics, fuel cells, corrosion-resistant coatings, RFID tags/labels and others.

Although electroactive polymer types are still in the very early stages of their development, their potential in electronics applications is far-reaching. Clearly, there is a need for an objective appraisal of these materials.

SCOPE OF THE STUDY

This report covers all of the major electroactive polymers noted above: ICPs, IDPs, conductively filled thermoplastics, low dielectric polymers and others in terms of their competitive scenarios and targeted applications. The report is global in its study of developments, applications and markets.

METHODOLOGY

Several procedures were used to gather information and included the following:

A complete literature review on products and technology;
A patent search;
Contacts with key personnel, including producers, suppliers and end users; and
Detailed analyses.

INTRODUCTION
SUMMARY
- Summary Table: GLOBAL FORECAST OF ELECTROACTIVE POLYMER MARKET PRODUCTION, THROUGH 2011
ELECTROACTIVE POLYMERS OVERVIEW
ELECTRONICS INDUSTRY TRENDS
- Table 1 SEMICONDUCTOR REVENUE, 2000-2010 ($ BILLIONS)
- Figure 1 SEMICONDUCTOR REVENUE, 2000-2010 ($ BILLIONS)
INHERENTLY CONDUCTIVE POLYMERS (ICPS)
- Table 2 CONDUCTIVITIES OF DOPED ICPS COMPARED WITH METALS, SEMICONDUCTORS AND INSULATORS
- Table 3 DIELECTRIC CONSTANTS FOR SELECTED MATERIALS
- Table 4 COLOR OF DOPED AND UNDOPED CONDUCTIVE POLYMERS
- Table 5 ICP PROCESSING TECHNIQUES
- Table 6 STABILITY AND PROCESSING ATTRIBUTES OF KEY ICPS
  - CONDUCTIVE POLYMER TYPES
    - OVERVIEW
    - POLYTHIOPHENES
      - Nature of the Material
      - Poly(3-Alkylthiophene)
      - Potential Applications
      - Suppliers
      - Recent Developments
    - POLYANILINES
      - Nature of the Material
      - Processing
- Figure 2 THE FOUR OXIDATION STATES OF POLYANILINE
CONDUCTIVE PLASTICS
- Table 7 HOW TO MAKE PLASTICS CONDUCTIVE
- Table 8 RESISTANCE SPECTRUM FOR METHODS OF MAKING PLASTICS CONDUCTIVE
- Table 9 CONDUCTIVE FILLER SUPPLIERS
INHERENTLY DISSIPATIVE POLYMERS (IDPS)
OTHER ELECTROACTIVE POLYMERS
- Table 10 COMPARISON OF GAS-PHASE DEPOSITION AND SPIN-COATING OF POLYMER DIELECTRICS
MARKET ESTIMATES AND FORECASTS
- Table 11 GLOBAL FORECAST OF ICP MARKET PRODUCTION BY TYPE OF RESIN BY VOLUME, THROUGH 2011 (THOUSAND POUNDS)
- Table 11 (CONTINUED)
- Table 12 GLOBAL FORECAST OF THE ICP MARKET BY TYPE OF RESIN, THROUGH 2011 ($ MILLIONS)
- Figure 3 GLOBAL FORECAST OF THE ICP MARKET BY TYPE OF RESIN, 2005-2011 ($ MILLIONS)
- Table 13 GLOBAL FORECAST OF POLYTHIOPHENE MARKET PRODUCTION BY APPLICATION, THROUGH 2011 (THOUSAND POUNDS)
- Table 14 POLYANILINE MARKET PRODUCTION BY APPLICATION, THROUGH 2011 (THOUSAND POUNDS)
- Table 15 POLYPYRROLE MARKET PRODUCTION BY APPLICATION, THROUGH 2011 (THOUSANDS POUNDS)
- Table 16 GLOBAL FORECAST OF OTHER ICP MARKET PRODUCTION BY APPLICATION 1, THROUGH 2011 (THOUSAND POUNDS)
  - LOW-DIELECTRIC POLYMERS
  - CONDUCTIVE PLASTICS
    - RESINS
- Table 17 GLOBAL FORECAST OF CONDUCTIVE PLASTIC MARKET PRODUCTION BY TYPE OF RESIN, THROUGH 2011 (MILLION POUNDS)
- Table 18 GLOBAL FORECAST OF CONDUCTIVE PLASTIC MARKET VALUE BY TYPE OF RESIN, THROUGH 2011 ($ MILLIONS)
- Figure 4 GLOBAL FORECAST OF CONDUCTIVE PLASTIC MARKET VALUE BY TYPE OF RESIN, THROUGH 2011 ($ MILLIONS)
- Table 19 GLOBAL FORECAST OF FILLER MARKET PRODUCTION FOR ESD STATIC CONTROL POLYMERS, THROUGH 2011 (MILLION POUNDS)
  - SUPPLIER MARKET ESTIMATES
- Table 20 GLOBAL MARKET SHARE OF ICP SUPPLIERS, 2005 (%)
- Table 21 GLOBAL MARKET SHARE OF CONDUCTIVE PLASTICS SUPPLIERS, 2005 (%)
APPLICATIONS OF ELECTROACTIVE POLYMERS
- Table 22 POTENTIAL ICP APPLICATIONS BY MARKET
  - OTHER ELECTROACTIVE POLYMERS
    - CONDUCTIVE PLASTICS
    - IDPS
    - LOW DIELECTRIC POLYMERS
  - OVERVIEW OF COMPETITIVE SCENARIO BETWEEN ICPS AND CONDUCTIVE PLASTICS
- Table 23 COMPETITIVE APPLICATION AREAS FOR ICPS AND TRADITIONAL CONDUCTIVELY FILLED THERMOPLASTICS
  - REPORT COVERAGE OF ELECTROACTIVE POLYMER APPLICATIONS
  - ELECTRONIC DISPLAYS
    - BACKGROUND
- Table 24 GLOBAL FORECAST OF TV ELECTRONIC DISPLAY SCREEN SHIPMENTS, THROUGH 2010 ($ BILLIONS)
- Table 25 FLAT PANEL DISPLAY MARKET VALUE BY SEGMENT, THROUGH 2006 ($ THOUSAND)
- Figure 5 FLAT PANEL DISPLAY MARKET VALUE BY SEGMENT, THROUGH 2006 ($ THOUSAND)
- Table 26 FLAT PANEL MARKET VALUE BY PRODUCT, THROUGH 2005 (PERCENT OF TOTAL)
- Table 27 LEADING OLED SHIPPING SUPPLIERS, 2005 ($ MILLION)
  - SEMICONDUCTOR TRANSISTORS
    - BACKGROUND
    - MOORES LAW
    - SILICON TECHNOLOGY
    - POSITION OF SILICON SUBSTRATES
    - SILICON-FREE INTEGRATED CIRCUITS?
    - CONCEPT OF PLASTIC ELECTRONICS
    - POLYMERS USED FOR PLASTIC/ORGANIC TRANSISTORS
    - PROCESSES AND APPLICATIONS
    - FLEXIBLE ELECTRONICS-A POTENTIALLY PROMISING OUTLET
      - Overview
      - Background
      - Potential Applications-Rollable Displays
        
        Overview
        Potential Advantages
        Microelectronic Circuits Based on Organic Films
        
        Background
        Potential Use of Polythiophene
        Company Activities
        Dry-Laser Method
        Philips Polymer Vision
        Cambridge Display Technologies and Plastic Logic
      - Other Potential Commercial Use of Organic Semiconductors
        
        Background
        Recent Developments
        
        Infineon Technologies
        More Stable Plastic Semiconductors
        Semiconductive Inks Move Plastic Transistors Closer to Commercialization
        A Plastic Electronics Material Advance
        Electrochromic Polymer Films
    - ORGANIC SEMICONDUCTOR TOPICS IN THE FOREFRONT
  - CAPACITORS
    - OVERVIEW
    - ADVANTAGES
    - POTENTIAL MARKETS
    - A NEW DEVELOPMENT -POLYMER ULTRACAPACITORS
  - SENSORS
    - OVERVIEW
    - BACKGROUND
    - REMOTELY READABLE INDICATORS
    - GAS SENSORS
    - ODOR SENSORS
    - CHEMICAL SENSORS
    - BIOSENSORS
    - USE OF MICROELECTRODES
    - RECENT DEVELOPMENTS
      - Use of Sulfonated Aromatics
      - Abtech Scientific
      - Polymer Membrane Sensor Arrays
  - CORROSION-RESISTANT COATINGS
    - OVERVIEW
    - POTENTIAL ROLE OF ICPS
    - ADVANTAGES OF ICP-BASED ANTI-CORROSION COATINGS:
    - APPLICATIONS OF ICP-BASED ANTI-CORROSION COATINGS
    - A RECENT DEVELOPMENT
  - TEXTILES/ FABRICS (ELECTROTEXTILES)
    - BACKGROUND
    - MATERIALS USED TO CREATE CONDUCTIVE FIBERS
    - FIBERS THAT CAN BE USED TO MAKE CONDUCTIVE FABRICS
- Table 28 TYPES OF FIBERS THAT CAN BE USED IN CONDUCTIVE FABRICS
  - SOLAR CELLS
    - OVERVIEW
    - RECENT DEVELOPMENTS
  - BATTERIES
    - BACKGROUND
    - LITHIUM-POLYMER BATTERIES
      - Overview
      - Technology
      - Advantages and Disadvantages
    - CONCEPT OF ALL POLYMER BATTERY
    - BUTTON BATTERIES
    - AUTOMOTIVE BATTERIES
    - PORTABLE COMPUTER BATTERIES
    - SUMMARY OF MARKET POTENTIAL FOR ICPS IN BATTERIES
    - NEW DEVELOPMENTS
      - Background
      - Polymeric Electrolytes
  - MISCELLANEOUS APPLICATIONS
    - PLASTIC LASERS
    - MEMBRANES
      - Background
      - Potential of ICPs
    - AVIATION/AEROSPACE
      - Overview
      - Smart Skin/Stealth Technology
    - FUEL CELLS
      - Overview
      - Background
      - Challenges
      - Fuel Cell Types
    - RFID TAGS/LABELS
      - Background
      - Applications
      - Role of Electroactive Polymers
    - MICROTOOLS
    - PRINTING PLATES
    - BIOLOGICAL DEVICES
    - SMART WINDOWS
    - PHARMACEUTICALS
    - CAMOUFLAGE COATINGS
    - SOLDERS
    - ELECTROLUMINESCENT LAMPS
  - CONDUCTIVE PLASTICS APPLICATIONS
    - OVERVIEW
    - ELECTROSTATIC DISCHARGE (ESD)
      - Technology Background
      - Device Failures Due to ESD Damage
      - How Much Static Protection is Needed?
      - Summing Up the ESD Scenario
      - ESD in the Electronics Industry
      - ESD Controls
        
        Background
        Materials and Methods
        Use of Chemical Additives
        
        Background
        Technology
        Use of Conductive Fillers
        Use of Coated Sheets
      - Role of Plastics in ESD Control
      - Static-Dissipative Polymers
      - ICP Potential
        
        Overview
        Thermoplastic ICP Compounds
      - New Developments
        
        Permanent Antistats
        Carbon Nanotubes for Static Dissipation
        More Automotive Products for ESD Protection
      - Representative Company ESD Products
- Table 29 SELECTED KEY ESD PLASTIC PRODUCTS
- Table 30 GENERAL PERFORMANCE CHARACTERISTICS OF SOME COMMERCIALLY AVAILABLE ANTI-STATIC PACKAGING MATERIALS
- Table 31 SURFACE RESISTIVITY FOR ELECTRONICS DEVICE SUBSTRATES
  - MARKET ESTIMATES AND FORECASTS
    - OVERVIEW
- Table 32 GLOBAL FORECAST OF ELECTROACTIVE POLYMER PRODUCTION BY APPLICATION, THROUGH 2011 (THOUSAND POUNDS)
- Table 33 ICP MARKET PRODUCTION BY APPLICATION, THROUGH 2011 (THOUSAND POUNDS)
- Table 33 (CONTINUED)
- Table 34 GLOBAL FORECAST FOR THE ICP PRODUCTION CAPACITOR MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
- Table 35 ICP PRODUCTION FOR THE ESD/ANTISTATIC PACKAGING MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
- Table 36 ICP PRODUCTION FOR THE ANTI-CORROSION COATING MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
- Table 37 GLOBAL FORECAST FOR THE ICP PRODUCTION SENSOR MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
- Table 38 GLOBAL FORECAST FOR ICP PRODUCTION FOR THE OLED MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
- Table 39 GLOBAL FORECAST ICP PRODUCTION FOR THE SOLAR CELL MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
- Table 40 GLOBAL FORECAST OF ICP PRODUCTION FOR THE TEXTILE/FABRIC MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
- Table 41 GLOBAL FORECAST OF ICP PRODUCTION FOR THE ORGANIC TRANSISTOR MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
- Table 42 GLOBAL FORECAST OF ICP PRODUCTION FOR THE BATTERY MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
- Table 43 GLOBAL FORECAST OF ICP PRODUCTION FOR MISCELLANEOUS APPLICATIONS BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
- Table 44 GLOBAL FORECAST OF CONDUCTIVE PLASTICS MARKET PRODUCTION BY APPLICATION, THROUGH 2011 (MILLION POUNDS) (1)
RESEARCH AND DEVELOPMENT ACTIVITIES
INDUSTRY STRUCTURE
LICENSING/JOINT VENTURE COMPANY ACTIVITIES
SELECTED ELECTROACTIVE POLYMER PRODUCT LINES
- Table 45 ICP AND CONDUCTIVE PLASTICS PRODUCT LINES
- Table 45 (CONTINUED)
COMPANY PROFILES
APPENDIX
LIST OF TABLES
Summary Table:
Table 1 SEMICONDUCTOR REVENUE, 2000-2010 ($ BILLIONS)
Table 2 CONDUCTIVITIES OF DOPED ICPS COMPARED WITH METALS, SEMICONDUCTORS AND INSULATORS
Table 3 DIELECTRIC CONSTANTS FOR SELECTED MATERIALS
Table 4 COLOR OF DOPED AND UNDOPED CONDUCTIVE POLYMERS
Table 5 ICP PROCESSING TECHNIQUES
Table 6 STABILITY AND PROCESSING ATTRIBUTES OF KEY ICPS
Table 7 HOW TO MAKE PLASTICS CONDUCTIVE
Table 8 RESISTANCE SPECTRUM FOR METHODS OF MAKING PLASTICS CONDUCTIVE
Table 9 CONDUCTIVE FILLER SUPPLIERS
Table 10 COMPARISON OF GAS-PHASE DEPOSITION AND SPIN-COATING OF POLYMER DIELECTRICS
Table 11 GLOBAL FORECAST OF ICP MARKET PRODUCTION BY TYPE OF RESIN BY VOLUME, THROUGH 2011 (THOUSAND POUNDS)
Table 12 GLOBAL FORECAST OF THE ICP MARKET BY TYPE OF RESIN, THROUGH 2011 ($ MILLIONS)
Table 13 GLOBAL FORECAST OF POLYTHIOPHENE MARKET PRODUCTION BY APPLICATION, THROUGH 2011 (THOUSAND POUNDS)
Table 14 POLYANILINE MARKET PRODUCTION BY APPLICATION, THROUGH 2011 (THOUSAND POUNDS)
Table 15 POLYPYRROLE MARKET PRODUCTION BY APPLICATION, THROUGH 2011 (THOUSANDS POUNDS)
Table 16 GLOBAL FORECAST OF OTHER ICP MARKET PRODUCTION BY APPLICATION 1, THROUGH 2011 (THOUSAND POUNDS)
Table 17 GLOBAL FORECAST OF CONDUCTIVE PLASTIC MARKET PRODUCTION BY TYPE OF RESIN, THROUGH 2011 (MILLION POUNDS)
Table 18 GLOBAL FORECAST OF CONDUCTIVE PLASTIC MARKET VALUE BY TYPE OF RESIN, THROUGH 2011 ($ MILLIONS)
Table 19 GLOBAL FORECAST OF FILLER MARKET PRODUCTION FOR ESD STATIC CONTROL POLYMERS, THROUGH 2011 (MILLION POUNDS)
Table 20 GLOBAL MARKET SHARE OF ICP SUPPLIERS, 2005 (%)
Table 21 GLOBAL MARKET SHARE OF CONDUCTIVE PLASTICS SUPPLIERS, 2005 (%)
Table 22 POTENTIAL ICP APPLICATIONS BY MARKET
Table 23 COMPETITIVE APPLICATION AREAS FOR ICPS AND TRADITIONAL CONDUCTIVELY FILLED THERMOPLASTICS
Table 24 GLOBAL FORECAST OF TV ELECTRONIC DISPLAY SCREEN SHIPMENTS, THROUGH 2010 ($ BILLIONS)
Table 25 FLAT PANEL DISPLAY MARKET VALUE BY SEGMENT, THROUGH 2006 ($ THOUSAND)
Table 26 FLAT PANEL MARKET VALUE BY PRODUCT, THROUGH 2005 (PERCENT OF TOTAL)
Table 27 LEADING OLED SHIPPING SUPPLIERS, 2005 ($ MILLION)
Table 28 TYPES OF FIBERS THAT CAN BE USED IN CONDUCTIVE FABRICS
Table 29 SELECTED KEY ESD PLASTIC PRODUCTS
Table 30 GENERAL PERFORMANCE CHARACTERISTICS OF SOME COMMERCIALLY AVAILABLE ANTI-STATIC PACKAGING MATERIALS
Table 31 SURFACE RESISTIVITY FOR ELECTRONICS DEVICE SUBSTRATES
Table 32 GLOBAL FORECAST OF ELECTROACTIVE POLYMER PRODUCTION BY APPLICATION, THROUGH 2011 (THOUSAND POUNDS)
Table 33 ICP MARKET PRODUCTION BY APPLICATION, THROUGH 2011 (THOUSAND POUNDS)
Table 34 GLOBAL FORECAST FOR THE ICP PRODUCTION CAPACITOR MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
Table 35 ICP PRODUCTION FOR THE ESD/ANTISTATIC PACKAGING MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
Table 36 ICP PRODUCTION FOR THE ANTI-CORROSION COATING MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
Table 37 GLOBAL FORECAST FOR THE ICP PRODUCTION SENSOR MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
Table 38 GLOBAL FORECAST FOR ICP PRODUCTION FOR THE OLED MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
Table 39 GLOBAL FORECAST ICP PRODUCTION FOR THE SOLAR CELL MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
Table 40 GLOBAL FORECAST OF ICP PRODUCTION FOR THE TEXTILE/FABRIC MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
Table 41 GLOBAL FORECAST OF ICP PRODUCTION FOR THE ORGANIC TRANSISTOR MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
Table 42 GLOBAL FORECAST OF ICP PRODUCTION FOR THE BATTERY MARKET BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
Table 43 GLOBAL FORECAST OF ICP PRODUCTION FOR MISCELLANEOUS APPLICATIONS BY POLYMER TYPE, THROUGH 2011 (THOUSAND POUNDS)
Table 44 GLOBAL FORECAST OF CONDUCTIVE PLASTICS MARKET PRODUCTION BY APPLICATION, THROUGH 2011(MILLION POUNDS)
Table 45 ICP AND CONDUCTIVE PLASTICS PRODUCT LINES
LIST OF FIGURES
Figure 1 SEMICONDUCTOR REVENUE, 2000-2010 ($ BILLIONS)
Figure 2 THE FOUR OXIDATION STATES OF POLYANILINE
Figure 3 GLOBAL FORECAST OF THE ICP MARKET BY TYPE OF RESIN, 2005-2011 ($ MILLIONS)
Figure 4 GLOBAL FORECAST OF CONDUCTIVE PLASTIC MARKET VALUE BY TYPE OF RESIN, THROUGH 2011 ($ MILLIONS)
Figure 5 FLAT PANEL DISPLAY MARKET VALUE BY SEGMENT, THROUGH 2006 ($ THOUSAND)

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導電性高分子

Electroactive Polymers

簡介

序