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Learn About the Conductive Polymers

November 13, 2008

Reportlinker.com announces that a new market research report related to the Advanced materials industry is available in its catalogue.

Conductive Polymers

http://www.reportlinker.com/p096625/Conductive-Polymers.html

The major objective of this report is to analyze inherently conductive polymers (ICPs) and, to a lesser extent, traditional conductively filled thermoplastics, in terms of their competitive scenario in specific applications. Another goal is to develop a reasonable scenario for ICP markets outside of their competitive posture vis-a-vis traditional conductive-filled thermoplastics.

The latter group is often called “conductive plastics“. However, in several market reports these materials are often termed “conductive polymers“, which often leads to some confusion.

Often ICPs and conductive plastics are termed “electroactive polymers/plastics“ while in other studies the phrase “electroactive“ polymers includes very highly specialized polymers with both electrical and/or optical characteristics (electro-optic polymers).

INTRODUCTION

STUDY GOALS AND OBJECTIVES

REASONS FOR DOING THE STUDY

SCOPE OF THE STUDY

METHODOLOGY

ACRONYMS

ABOUT THE AUTHOR

RELATED BCC REPORTS

BCC ONLINE SERVICES

DISCLAIMER

SUMMARY

SUMMARY TABLE ELECTROACTIVE POLYMER MARKET (MILLION POUNDS/ $ MILLION)

SUMMARY FIGURE ELECTROACTIVE POLYMER MARKET, 2007-2013 ($ MILLIONS)

ELECTROACTIVE POLYMER OVERVIEW

BACKGROUND

INHERENTLY CONDUCTIVE POLYMERS

INHERENTLY DISSIPATIVE POLYMERS (IDPS)

CONDUCTIVE PLASTICS

INHERENTLY CONDUCTIVE POLYMERS

ADDITIONAL TECHNICAL DETAILS

SYNTHESIZING CONJUGATED POLYMERS

TECHNIQUES FOR MAKING PLASTICS CONDUCTIVE

TABLE 1 HOW TO MAKE PLASTICS CONDUCTIVE

CONCEPT OF RESISITIVITIES

OVERVIEW

TABLE 2 RESISTANCE SPECTRUM FOR METHODS OF MAKING PLASTICS CONDUCTIVE

CONCEPTS AND NOMENCLATURE

ICP HISTORICAL PERSPECTIVE

PRIOR TO 1990

POST-1990 PERIOD

BY 2000

TECHNOLOGIES

OVERVIEW

PREPARATION OF ICPS

ENERGY BAND STRUCTURE

CHAIN STRUCTURE

COMPARISON OF CONDUCTIVITIES OF ICPS WITH

METALS, SEMICONDUCTORS, AND INSULATORS

TABLE 3 CONDUCTIVITIES OF DOPED ICPS COMPARED WITH METALS, SEMICONDUCTORS, AND INSULATORS

DOPING

Overview

Chemical and Electrochemical Methods

Reversal of Doping Process

Types of Dopants

Goal of Narrow Band Gaps

Effect on Color and Optical Properties

TABLE 4 COLOR OF DOPED AND UNDOPED CONDUCTIVE POLYMERS

IMPORTANCE OF MOLECULAR WEIGHT AND DISTRIBUTION IN CONDUCTIVE POLYMERS

IMPROVING HIGH TEMPERATURE CONDUCTIVITY AND TEMPERATURE STABILITY

ALLOYING AND BLENDING CONDUCTIVE POLYMERS

WITH CONVENTIONAL RESINS

RECENT DEVELOPMENTS

PERFORMANCE ENHANCEMENTS SOUGHT THROUGH

ICPS

Conductivity

Electrochromic Effects

Electroluminescence

Photoconductivity

Thermochromic Effects

PROCESSING CONDUCTIVE POLYMERS

Background

Problems and Challenges

Processing Options for ICPs

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)

Suppliers

H.C. Starck

American Dye Source

Plextronics, Inc

Other Polythiophene Derivatives

PEDOT

PEDOT/PSS Complex

EDOT

Potential Applications

Actual Usage of Polythiophenes and Derivatives

TABLE 7 BRIEF SUMMARY OF KEY APPLICATIONS OF POLYTHIOPHENE VARIANTS

Recent Developments

Printed Organic Electronics

A New Polythiophene

Further Developments with PEDOT

BASF to Market Organic Semiconductors Based on

Polythiophenes

POLYANILINES

Overview

Nature of the Material

Processing

FIGURE 1 THE FOUR OXIDATION STATES OF POLYANILINE

Characteristics and Properties

Overview

Can Be Blended with Commodity Polymers and

Elastomers

Optical Properties

Can Be Melt and Solution Processed

Potential Applications

Suppliers

New Developments

A New Polyaniline Synthesis

New Polyaniline Flexible Materials Conducting

Electricity

POLYPYRROLES

Nature of the Material

Processing

Potential Applications

New Developments

Polypyrrole Stability and Coatings for Radar

Absorbing Materials

POLYACETYLENES

Background

Preparation

Processing

Problem of Environmental Instability

Potential Applications

OTHER INHERENTLY CONDUCTIVE POLYMERS

Polyphenylene Vinylene (PPV)

Background

Processing

Potential in Light Emitting Polymers

Other Potential Applications

Polyfluorenes

Polyphenylene Sulfide

Phthalocyanines

RECENT DEVELOPMENTS

Dissolving Conductive Polymers

INHERENTLY DISSIPATIVE POLYMERS (IDPS)

Overview

Technological Aspects and Problems

Suppliers

ICP COMPETITIVE RESIN SYSTEMS ? CONDUCTIVE PLASTICS

BACKGROUND

OVERVIEW

TECHNIQUES FOR MAKING PLASTICS CONDUCTIVE

TABLE 8 HOW TO MAKE PLASTICS

CONCEPT OF RESISITIVITIES

TABLE 9 RESISTANCE SPECTRUM FOR METHODS OF MAKING PLASTICS CONDUCTIVE

TYPES OF CONDUCTIVE PLASTIC MATERIALS

CONDUCTIVE PLASTIC ADDITIVES

OVERVIEW

ESD/EMI COMPOUNDS

ANTISTATIC ADDITIVES

METAL FIBERS

Overview

Stainless Steel Fibers

Other Metal Fibers

Carbon Fibers

Carbon Blacks

TECHNICAL ISSUES

COSTS

RESINS USED

NEW DEVELOPMENTS

CARBON NANOTUBES

Overview

Company Activities

CONDUCTIVE FILLER SUPPLIERS

TABLE 10 CONDUCTIVE FILLER SUPPLIERS

RECENT DEVELOPMENTS IN CONDUCTIVE PLASTICS

COLORED CONDUCTIVE POLYACETALS

NEW CONDUCTIVE GRADES MEET ECC’S STRICT

REGULATIONS

CONDUCTIVE POLYMER BLENDS USED IN POWDER

COATINGS

CONDUCTIVE TPES

NOVEL CONDUCTIVE ADDITIVES

OTHER CONDUCTIVE PLASTIC SYSTEMS

CONDUCTIVE PAINTS AND COATINGS

Background

Overview

Performance of Alternate Conductive Coatings

Background

Copper

Silver

Nickel

COATED PLASTICS FOR ESD CONTROL

Comparisons

Other Aspects

Conductive Coating Cost Comparisons

CONDUCTIVE FILMS

CONDUCTIVE ELASTOMERS

COMPOUNDING CONDUCTIVE PLASTICS

KEY SUPPLIERS AND EXAMPLES OF THEIR CONDUCTIVE

PLASTIC PRODUCTS

BOEDEKER PLASTICS

CABOT

CIBA SPECIALTY CHEMICALS

EASTMAN CHEMICAL

LNP ENGINEERING

LUBRIZOL ADVANCED MATERIALS

POLYONE

RTP

NEW PRODUCTS

EEONOYX

LUBRIZOL

PREMIX THERMOPLASTICS

MARKET ESTIMATES AND FORECASTS

INHERENTLY CONDUCTIVE POLYMERS

BACKGROUND

OVERALL MARKET BY VOLUME

TABLE 11 ICP MARKET BY TYPE OF RESIN BY VOLUME, THROUGH 2013 (THOUSAND POUNDS)

TABLE 11 (CONTINUED)

PRICING

OVERALL ICP MARKET BY VALUE

TABLE 12 ICP MARKET BY TYPE OF RESIN BY VALUE, 2007-2013 ($ MILLIONS)

ICP MARKET ESTIMATES BY APPLICATION

Overview

Polythiophenes

TABLE 13 POLYTHIOPHENE MARKET BY APPLICATION, THROUGH 2013 (THOUSAND POUNDS)

Polyanilines

TABLE 14 POLYANILINE MARKET BY APPLICATION, THROUGH 2013 (THOUSAND POUNDS)

Polypyrroles

TABLE 15 POLYPYRROLE MARKET BY APPLICATION, THROUGH 2013 (THOUSAND POUNDS

Other ICPs

TABLE 16 OTHER ICP MARKET BY APPLICATION, THROUGH 2013 (THOUSAND POUNDS)

CONDUCTIVE PLASTICS

TABLE 17 CONDUCTIVE PLASTIC MARKET VOLUME BY RESIN, THROUGH 2013 (MILLION POUNDS)

TABLE 18 CONDUCTIVE PLASTIC MARKET VALUE BY RESIN, 2007-2013 ($ MILLIONS)

FIGURE 2 CONDUCTIVE PLASTIC MARKET VALUE BY RESIN, 2007-2013 ($ MILLIONS)

OVERALL MARKET SUMMARY

TABLE 19 TOTAL ELECTROACTIVE POLYMER MARKET, THROUGH 2013 (THOUSAND POUNDS)

TABLE 19 (CONTINUED)

TABLE 20 TOTAL ELECTROACTIVE POLYMER MARKET, THROUGH 2013 ($ THOUSANDS)

APPLICATIONS OF ICPS AND CONDUCTIVE PLASTICS

BACKGROUND

POTENTIAL/CURRENT APPLICATIONS OF ICPS

OVERVIEW

TABLE 21 POTENTIAL ICP APPLICATIONS BY REVIEW OF POTENTIALLY SIGNIFICANT COMMERCIAL

USES OF ICPS

SPECIFIC INDIVIDUAL ICP PROPOSED APPLICATIONS

APPLICATIONS OF CONDUCTIVE PLASTICS

APPLICATIONS OF IDPS

OVERVIEW OF COMPETITIVE SCENARIO BETWEEN ICPS AND

CONDUCTIVE PLASTICS

TABLE 22 COMPETITIVE SCENARIO BETWEEN ICPS AND TRADITIONAL CONDUCTIVELY-FILLED THERMOPLASTICS

ELECTRICAL/ELECTRONIC APPLICATIONS

OVERVIEW

THE STATE OF THE CONSUMER ELECTRONICS

INDUSTRY

LIGHT-EMITTING DIODES

Background

Organic Light-Emitting Diodes

Overview

Some Definitions

Historical Background

How OLEDs Work

Parts of OLEDs

Additional Technical Details

OLED Technology Summary

Advantages of OLEDs

Features and Benefits of OLEDs

Disadvantages of OLEDs

Issue of Shorter Lifetimes than Inorganic

LEDs

High Prices and Water Issue

Other OLED Research Focus

Roll-to-Roll Manufacturing

Organic Photovoltaics

Early Applications

Overview

Automotive Lighting

Signs

Other

Potential Market Size

Early Use of ICPs in OLEDs

Recent Developments

Overview

DuPont Develops New AMOLED Materials

and OLED Displays

Novaled Achieves Very High Lifetimes for

White OLEDs

Idemitsu Kosan and Universal Display

Seiko Epson Advances

CAPACITORS

Overview

Background

Capacitor Coating Technology

Conductive Polymers in Use

Companies Involved

Advantages

Potential Markets

New Developments

Polymer Ultracapacitors

Kemet Develops New Conductive Polymer

Capacitors

Crosslink Polymer USA Develops News Conductive

Polymer Coatings For Capacitors

BATTERIES

Background

Lithium Batteries

Overview

Technology

Advantages and Disadvantages

Advantages

Disadvantages

Concept of All-Polymer Battery

Button Batteries

Automotive Batteries

Portable Computer Batteries

Use in Batteries

SEMICONDUCTOR TRANSISTORS

Background

Moore’s Law

Silicon Technology

Position of Silicon Substrates

Silicon-Free Integrated Circuits

Concept of Plastic Electronics

Concept of Plastic Electronics (Continued)

Polymers Used for Plastic/Organic Transistors

Processes and Applications

Companies Involved

Xerox Corporation

H.C. Starck

Merck KGaA

Plextronics

Flexible Electronics ? A Potential Promising Outlet

Overview

Background

Potential Applications

Rollable Displays

Tags/Labels

Company Activities

DuPont-Bell Labs

Philip’s Polymer Vision

Cambridge Display Technologies and Plastic

Logic

Other Potential Commercial Uses of Organic

Semiconductors

Other Recent Developments in Organic

Semiconductors

Infineon Technologies

More Stable Plastic Semiconductors

Semiconductive Inks Move Plastic Transistors

Closer to Commercialization

A Plastic Electronics Material Advance

Electrochromic Polymer Films

Recent Conductive Polymer Electronic Industry

Developments

Polyaniline Field Effect Transistors (FETs)

Combining ICPs with Flexible Thermoplastics

Plastic Logic Moves into Flexible Displays

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

Polyaniline-Based Optical Ammonia Detector

Conductive Polymer-Based Sensors

ICP-Modified Polyurethane Smart Foams for

Pressure Sensing

SOLAR CELLS

Background

Overview

Applications

Recent Developments

Military Applications

Thin Film Organic Photovoltaic Technology

ELECTRONIC DISPLAYS

Background

TABLE 23 GLOBAL TV ELECTRONIC DISPLAY SCREENS, THROUGH 2012 ($ BILLIONS)

Cathode Ray Tubes are Still Around

Flat Panel Displays

Overview

Liquid Crystal Flat Panel Displays

Overview

Background

Materials and Technology

Costs

Flat Panel Display Types

Plasma Displays

Digital Light Processing (DLPs)

Field Emission Displays (FEDs)

Liquid Crystal on Silicon (LCOS)

Surface-Conduction Electron Emitter Displays

(SEDs)

Nano-Emissive Displays

Conductive Polymer Flat Panel Displays

ELECTROMAGNETIC INTERFERENCE (EMI)

BACKGROUND

OVERVIEW OF EMI SHIELDING

MECHANISMS OF SHIELDING

EMI EFFECTS

THE IMPORTANCE OF SHIELDING

CONTROLLING EMI

USE OF CONDUCTIVE PLASTICS

Background

Functions

Conductive Additive Selection

TABLE 24 SURFACE RESISTIVITY FOR ELECTRONIC DEVICE SUBSTRATES (OHMS/SQ)

Conductivity Tests

Advantages and Disadvantages of Conductive Plastics

Advantages and Disadvantages …(Continued)

USE OF INHERENTLY CONDUCTIVE POLYMERS

ROLE OF IDPS

ELECTROSTATIC DISCHARGE (ESD)

TECHNOLOGY BACKGROUND

USE OF METAL CABINETS

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

Antistatic Coatings Used for Polymer Films

NEW DEVELOPMENTS

Permanent Antistats

Carbon Nanotubes for Static Dissipation

More Automotive Products for ESD Protection

New Conductive Additives Provide Higher ESD Control

REPRESENTATIVE COMPANY ESD PRODUCTS

TABLE 25 SELECTED KEY ESD PLASTIC PRODUCTS

RECENT ESD ACTIVITIES WITHIN THE ELECTRONIC

INDUSTRY

Background

Protecting Printed Circuit Boards (PCBs) From ESD

ANTISTATIC PACKAGING

Background

Topical Coatings

Permanently Static-Dissipative Polymers

Types of Products and Additives Used

Carbon Black

Powdered Metals

Mixed-Metal Oxides

Polymer Alloys

Permanent Coatings

Other Characteristics of Materials Used in Antistatic

Packaging

TABLE 26 GENERAL PERFORMANCE CHARACTERISTICS OF SOME COMMERICALLY AVAILABLE ANTISTATIC

Examples of Antistatic Packaging Types of Products

New Products for Static Dissipation

ELECTROSTATIC PAINTABLE PLASTICS

Background

Overview

Applications

Automotive Industry Aspects

Concept of Compliance Coatings

UV-Cured Coatings

Molded-in-Color Automotive Exteriors

Dry Paint

Background

Technology

New Electrostatically Paintable Plastic Products

Bayer

Rhodia

ANTI-CORROSION PRODUCTS

OVERVIEW

CORROSION-RESISTANT COATINGS

POTENTIAL ROLE OF ICPS

ADVANTAGES OF ICP-BASED ANTICORROSION

COATINGS

COMMERCIAL POLYANILINES FOR CORROSION

CONTROL

APPLICATIONS OF ICP-BASED ANTICORROSION

COATINGS

RECENT DEVELOPMENTS

Polypyrrole/Aluminum Flake Hybrids as Corrosion

Inhibitors

TEXTILES/FABRICS (ELECTROTEXTILES)

OVERVIEW

BACKGROUND

MATERIALS USED TO CREATE CONDUCTIVE FIBERS

FIBERS THAT CAN BE USED TO MAKE CONDUCTIVE

FABRICS

TABLE 27 TYPES OF FIBERS THAT CAN BE USED IN CONDUCTIVE FABRICS

EXAMPLES OF COMPANIES INVOLVED IN CONDUCTIVE

TEXTILES

NEW MATERIALS

APPLICATIONS

NEW DEVELOPMENTS

MEMBRANES

BACKGROUND

POTENTIAL OF ICPS

SMART MEMBRANES

AVIATION/AEROSPACE

OVERVIEW

SMART SKIN/STEALTH TECHNOLOGY

CONDUCTIVE POLYMERS FOR SPACE SUITS

COATINGS/INKS

OVERVIEW

PROCESSING METHODS

SELECTED PRODUCTS

Polyanilines

Polythiophenes

A New Development

FUEL CELLS

OVERVIEW

BACKGROUND

CHALLENGES

FUEL CELL TYPES

NANO-RELATED APPLICATIONS

RECENT CONDUCTIVE POLYMER DEVELOPMENTS

NANOWIRES

CARBON NANOTUBES AND POLYANILINE BLENDS

POLYANILINE NANOFIBER SUPPORTED PLATINUM

ELECTROCATALYSTS

RFID TAGS/LABELS

BACKGROUND

APPLICATIONS

HOW RFIDS FUNCTION

OTHER TECHNICAL ASPECTS

ROLE OF ELECTROACTIVE POLYMERS

MISCELLANEOUS APPLICATIONS

OVERVIEW

PLASTIC LASERS

MICROTOOLS

PRINTING PLATES

BIOLOGICAL DEVICES

SMART/ELECTROCHROMIC WINDOWS

PHARMACEUTICALS

CAMOUFLAGE COATINGS

SOLDERS

ELECTROLUMINESCENT LAMPS (EL LAMPS)

MEDICAL

Biocompatible Conducting Polymers in Medical

Applications

MARKET ESTIMATES AND FORECASTS BY APPLICATION

OVERVIEW

TABLE 28 ELECTROACTIVE POLYMER MARKET BY APPLICATION, THROUGH 2013

TABLE 28 (CONTINUED)

ICP MARKETS BY APPLICATION

Overview

TABLE 29 ICP MARKET BY APPLICATION, THROUGH 2013 (THOUSAND POUNDS)

Capacitors

TABLE 30 CAPACITOR MARKET BY ICP PRODUCT TYPE, THROUGH 2013 (THOUSAND POUNDS)

ESD/Antistatic Packaging

TABLE 31 ESD/ANTISTATIC PACKAGING MARKET BY ICP PRODUCT TYPE, THROUGH 2013 (THOUSAND POUNDS)

FIGURE 3 ESD/ANTISTATIC PACKAGING MARKET BY ICP PRODUCT TYPE, 2007-2013 (THOUSAND POUNDS)

Corrosion Protection

TABLE 32 CORROSION PROTECTION MARKET BY ICP PRODUCT TYPE, THROUGH 2013 (THOUSAND POUNDS)

FIGURE 4 CORROSION PROTECTION MARKET BY ICP PRODUCT TYPE, 2007-2013 (THOUSAND POUNDS)

Sensors

TABLE 33 SENSOR MARKET BY ICP PRODUCT TYPE, THROUGH 2013 (THOUSAND POUNDS)

OLEDs

TABLE 34 OLED MARKET BY ICP PRODUCT TYPE, THROUGH 2013 (THOUSAND POUNDS)

FIGURE 5 OLED MARKET BY ICP PRODUCT TYPE, 2007-2013 (THOUSAND POUNDS)

Solar Cells

TABLE 35 SOLAR CELL MARKET BY ICP POLYMER TYPE, THROUGH 2013 (THOUSAND POUNDS)

FIGURE 6 SOLAR CELL MARKET BY ICP POLYMER TYPE, THROUGH 2013 (THOUSAND POUNDS)

Textiles/Fabrics

TABLE 36 TEXTILES/FABRICS MARKET BY ICP PRODUCT TYPE, THROUGH 2013 (THOUSAND POUNDS)

FIGURE 7 TEXTILES/FABRICS MARKET BY ICP PRODUCT TYPE, 2007-2013 (THOUSAND POUNDS)

Organic Semiconductors

TABLE 37 ORGANIC SEMICONDUCTOR MARKET BY POLYMER TYPE, THROUGH 2013 (THOUSAND POUNDS)

Batteries

TABLE 38 BATTERY MARKET BY ICP PRODUCT TYPE, THROUGH 2013 (THOUSAND POUNDS)

Miscellaneous Applications

TABLE 39 MISCELLANEOUS APPLICATIONS BY ICP TYPE, THROUGH 2013 (THOUSAND POUNDS)

FIGURE 8 MISCELLANEOUS APPLICATIONS BY ICP TYPE, 2007-2013 (THOUSAND POUNDS)

CONDUCTIVE PLASTICS MARKETS BY APPLICATION

TABLE 40 CONDUCTIVE PLASTICS MARKET BY APPLICATION, THROUGH 2013 (MILLION POUNDS)

FIGURE 9 CONDUCTIVE PLASTICS MARKET BY APPLICATION, 2007-2013 (MILLION POUNDS)

Miscellaneous Applications (Continued)

RECENT CONDUCTIVE POLYMER PATENT ACTIVITY

U.S. 6,870,516 (MARCH 22, 2005) – LOW COST ANTENNAS USING

CONDUCTIVE PLASTICS – INTEGRAL TECHNOLOGIES, INC.

(BELLINGHAM, WA)

U.S. 6,942,822 (SEPTEMBER 13, 2005) – PROCESS FOR

PREPARATION OF POLYANILINE SALT – IBM CORPORATION

(ARMONK, NY)

U.S. 6,987,440 (JANUARY 17, 2006) – ELECTRICAL DEVICES

CONTAINING CONDUCTIVE POLYMERS – TYCO

ELECTRONICS (MIDDLETOWN, PA)

U.S. 6,994,805 (FEBRUARY 7, 2006) – POLYTHIOPHENE POLYMER

WITH HIGH CHARGE-CARRIER MOBILITIES – INFINEON

TECHNOLOGIES (MUNICH, GERMANY)

U.S. 7,008,562 (MARCH 7, 2006) – METHOD FOR FORMING

POLYTHIOPHENE DISPERSIONS – BAYER AG (LEVERKUSEN,

GERMANY)

U.S. 7,033,639 (APRIL 25, 2006) – POLYANILINE COATING

COMPOSITION – ROHM & HAAS COMPANY (MARLBOROUGH,

MA)

U.S. 7,033,646 (APRIL 25, 2006) – POLYANILINE BLENDS FOR

USE IN HIGH EFFICIENCY POLYMERIC

ELECTROLUMINESCENT DEVICES – PARA LTD (SUWON-SI,

KOREA)

U.S. 7,034,164 (APRIL 25, 2006) – ELECTRICALLY CONDUCTIVE

POLYMERS CAPABLE OF BEING GRAFTED BY LIGHT FOR BIOSENSORS – UNIVERSITE JOSEPH FOURIER (GRENOBLE,

FRANCE)

U.S. 7,081,752 (JULY 25, 2006) – ELECTRICALLY LOADING RADIO

FREQUENCY COILS USING CONDUCTIVE POLYMERS –

GENERAL ELECTRIC COMPANY (SCHENECTADY, NY)

U.S. 7,101,495 (SEPTEMBER 5, 2006) – USE OF SULPHONIC AND

PHOSPHORIC ACIDS AS DOPANTS FOR POLYANILINE –

COMMISSARIAT A L’ENERGIE ATOMIQUE (PARIS, FRANCE)

U.S. 7,132,630 (NOVEMBER 7, 2006) – RESISTIVE HEATING

USING POLYANILINE FIBERS – SANTA FE SCIENCE AND

TECHNOLOGY LLC (SANTA FE, NM)

U.S. 7,175,914 (FEBRUARY 13, 92007) – POLYANILINECONTAINING

FILM SURFACES – DENSO CORPORATION

(KARIYA, JAPAN)

U.S. 7,217,295 (MAY 15, 2007) – USE OF SOLUBLE CONDUCTIVE

POLYMERS FOR TREATING HUMAN KERATIN FIBERS –

L.OREAL S.A. (PARIS, FRANCE)

U.S. 7,250,461 (JULY 31, 2007) – CONDUCTIVE POLYMER

ORGANIC FORMULATIONS WITH POLYMERIC COLLOIDS

FOR ELECTRONIC APPLCATIONS – DUPONT (WILMINGTON,

DE)

U.S. 7,288,218 (OCTOBER 30, 2007) – DEAGGREGATED

ELECTRICALLY CONDUCTIVE POLYMERS – IBM

CORPORATION (ARMONK, NY)

INDUSTRY STRUCTURE

OVERVIEW

COMPANIES INVOLVED

SELECTED DETAILS ON VARIOUS MAJOR PLAYERS

SEGMENTATION OF MAJOR PLAYERS INTO BUSINESS

CATEGORIES

TABLE 41 SEGMENTATION OF MAJOR PLAYERS INTO BUSINESS CATEGORIES

SELECTED ELECTROACTIVE POLYMER PRODUCT LINES

TABLE 42 SELECTED ELECTROACTIVE POLYMER PRODUCT LINES

SELECTED ELECTROACTIVE POLYMER … (CONTINUED)

COMPANY PROFILES

ABTECH SCIENTIFIC, INC

AGFA-GEVAERT GROUP NV

AIR PRODUCTS & CHEMICALS

AMERICAN DYE SOURCE, INC.

BASF, INC

CAMBRIDGE DISPLAY TECHNOLOGY

CENTRAL CORPORATION

CROSSLINK POLYMER RESEARCH

DUPONT DISPLAYS

EEONYX

FRACTAL SYSTEM, INC

KEMET CAPACITORS

KLOCKNER PENTAPLAST OF AMERICA

LNP ENGINEERING PLASTICS

LUBRIZOL ADVANCED MATERIALS

MARKTEK, INC.

MERCK KGAA – DARMSTADT, GERMANY

MILLIKEN RESEARCH CORPORATION

NANOGENESYS, INC.

ORMECON CHEMIE

PANIPOL LTD

PLASTIC LOGIC

PLEXTRONICS, INC

POLYMER VISION, LTD

POLYONE

PREMIX OY

RIEKE METALS, INC

RTP COMPANY

H.C. STARCK INTERNATIONAL

STERLING FIBERS

UNIVERSAL DISPLAY CORPORATION

UNIVERSAL DISPLAY CORPORATION (CONTINUED)

LIST OF TABLES

SUMMARY TABLE ELECTROACTIVE POLYMER MARKET (MILLION

POUNDS/ $ MILLION)

TABLE 1 HOW TO MAKE PLASTICS CONDUCTIVE

TABLE 2 RESISTANCE SPECTRUM FOR METHODS OF MAKING

PLASTICS CONDUCTIVE

TABLE 3 CONDUCTIVITIES OF DOPED ICPS COMPARED WITH

METALS, SEMICONDUCTORS, AND INSULATORS

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 BRIEF SUMMARY OF KEY APPLICATIONS OF

POLYTHIOPHENE VARIANTS

TABLE 8 HOW TO MAKE PLASTICS

TABLE 9 RESISTANCE SPECTRUM FOR METHODS OF MAKING

PLASTICS CONDUCTIVE

TABLE 10 CONDUCTIVE FILLER SUPPLIERS

TABLE 11 ICP MARKET BY TYPE OF RESIN BY VOLUME, THROUGH

2013 (THOUSAND POUNDS)

TABLE 12 ICP MARKET BY TYPE OF RESIN BY VALUE, 2007-2013

($ MILLIONS)

TABLE 13 POLYTHIOPHENE MARKET BY APPLICATION, THROUGH

2013 (THOUSAND POUNDS)

TABLE 14 POLYANILINE MARKET BY APPLICATION, THROUGH 2013

(THOUSAND POUNDS)

TABLE 15 POLYPYRROLE MARKET BY APPLICATION, THROUGH 2013

(THOUSAND POUNDS

TABLE 16 OTHER ICP MARKET BY APPLICATION, THROUGH 2013

(THOUSAND POUNDS)

TABLE 17 CONDUCTIVE PLASTIC MARKET VOLUME BY RESIN,

THROUGH 2013 (MILLION POUNDS)

TABLE 18 CONDUCTIVE PLASTIC MARKET VALUE BY RESIN, 2007-

2013 ($ MILLIONS)

TABLE 19 TOTAL ELECTROACTIVE POLYMER MARKET, THROUGH

2013 (THOUSAND POUNDS)

TABLE 20 TOTAL ELECTROACTIVE POLYMER MARKET, THROUGH

2013 ($ THOUSANDS)

TABLE 21 POTENTIAL ICP APPLICATIONS BY

TABLE 22 COMPETITIVE SCENARIO BETWEEN ICPS AND

TRADITIONAL CONDUCTIVELY-FILLED THERMOPLASTICS

TABLE 23 GLOBAL TV ELECTRONIC DISPLAY SCREENS, THROUGH

2012 ($ BILLIONS)

TABLE 24 SURFACE RESISTIVITY FOR ELECTRONIC DEVICE

SUBSTRATES (OHMS/SQ)

TABLE 25 SELECTED KEY ESD PLASTIC PRODUCTS

TABLE 26 GENERAL PERFORMANCE CHARACTERISTICS OF SOME

COMMERICALLY AVAILABLE ANTISTATIC

TABLE 27 TYPES OF FIBERS THAT CAN BE USED IN CONDUCTIVE

FABRICS

TABLE 28 ELECTROACTIVE POLYMER MARKET BY APPLICATION,

THROUGH 2013

TABLE 29 ICP MARKET BY APPLICATION, THROUGH 2013

(THOUSAND POUNDS)

TABLE 30 CAPACITOR MARKET BY ICP PRODUCT TYPE, THROUGH

2013 (THOUSAND POUNDS)

TABLE 31 ESD/ANTISTATIC PACKAGING MARKET BY ICP PRODUCT

TYPE, THROUGH 2013 (THOUSAND POUNDS)

TABLE 32 CORROSION PROTECTION MARKET BY ICP PRODUCT

TYPE, THROUGH 2013 (THOUSAND POUNDS)

TABLE 33 SENSOR MARKET BY ICP PRODUCT TYPE, THROUGH 2013

(THOUSAND POUNDS)

TABLE 34 OLED MARKET BY ICP PRODUCT TYPE, THROUGH 2013

(THOUSAND POUNDS)

TABLE 35 SOLAR CELL MARKET BY ICP POLYMER TYPE, THROUGH

2013 (THOUSAND POUNDS)

TABLE 36 TEXTILES/FABRICS MARKET BY ICP PRODUCT TYPE,

THROUGH 2013 (THOUSAND POUNDS)

TABLE 37 ORGANIC SEMICONDUCTOR MARKET BY POLYMER TYPE,

THROUGH 2013 (THOUSAND POUNDS)

TABLE 38 BATTERY MARKET BY ICP PRODUCT TYPE, THROUGH 2013

(THOUSAND POUNDS)

TABLE 39 MISCELLANEOUS APPLICATIONS BY ICP TYPE, THROUGH

2013 (THOUSAND POUNDS)

TABLE 40 CONDUCTIVE PLASTICS MARKET BY APPLICATION,

THROUGH 2013 (MILLION POUNDS)1

TABLE 41 SEGMENTATION OF MAJOR PLAYERS INTO BUSINESS

CATEGORIES

TABLE 42 SELECTED ELECTROACTIVE POLYMER PRODUCT LINES

LIST OF FIGURES

SUMMARY FIGURE ELECTROACTIVE POLYMER MARKET, 2007-2013

($ MILLIONS)

FIGURE 1 THE FOUR OXIDATION STATES OF POLYANILINE

FIGURE 2 CONDUCTIVE PLASTIC MARKET VALUE BY RESIN, 2007-

2013 ($ MILLIONS)

FIGURE 3 ESD/ANTISTATIC PACKAGING MARKET BY ICP PRODUCT

TYPE, 2007-2013 (THOUSAND POUNDS)

FIGURE 4 CORROSION PROTECTION MARKET BY ICP PRODUCT

TYPE, 2007-2013 (THOUSAND POUNDS)

FIGURE 5 OLED MARKET BY ICP PRODUCT TYPE, 2007-2013

(THOUSAND POUNDS)

FIGURE 6 SOLAR CELL MARKET BY ICP POLYMER TYPE, THROUGH

2013 (THOUSAND POUNDS)

FIGURE 7 TEXTILES/FABRICS MARKET BY ICP PRODUCT TYPE, 2007-

2013 (THOUSAND POUNDS)

FIGURE 8 MISCELLANEOUS APPLICATIONS BY ICP TYPE, 2007-2013

(THOUSAND POUNDS)

FIGURE 9 CONDUCTIVE PLASTICS MARKET BY APPLICATION, 2007-

2013 (MILLION POUNDS)

To order this report:

Conductive Polymers

http://www.reportlinker.com/p096625/Conductive-Polymers.html

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