Conductive Polymers: Technologies and Global Markets

Conductive Polymers: Technologies and Global Markets

BCC, Date of Publication: Sep 7, 2016, 125 Pages
US$5,550.00
GB-PLS043D

The global market for electroactive polymers reached 447.3 million pounds in 2015. The market is expected to reach 725.8 million pounds by 2021 from 484.9 million pounds in 2016 increasing at a compound annual growth rate (CAGR) of 8.4% from 2016 to 2021.

This report provides:

  • An overview of the global markets for conductive polymers.
  • Analyses of global market trends, with data from 2015, estimates for 2016, and projections of compound annual growth rates (CAGRs) through 2021.
  • Analyses of potential applications for these materials such as electrostatic dissipation (ESD) control, light emitting displays, capacitors, electrostatic paintable plastics, antistatic packaging, corrosion-resistant paints/coatings and others.
  • Evaluation of the markets dynamics, specifically growth drivers, restraints, and opportunities.
  • Profiles of major players in the industry.

 

Conductive Polymers: Technologies and Global Markets

The scope of this study encompasses both ICPs and conductive polymer composites, both in applications where the two types of conductive polymers compete as well as ICP markets independent of traditional conductive plastics. Applications in which the two types of conductive polymers compete include ESD/antistatic packaging and electrostatic spray painting, as well as other applications. Unique ICP applications include batteries, transistors, light-emitting diodes (LEDs), capacitors, corrosion-resistant coating products, membranes and sensors, among others.

Market data are presented in value as well as volume terms. Estimating the volume consumed of ICPs such as polythiophenes, polyanilines, or polypyrroles is difficult. The difficulty arises because these materials are usually not used as solids or liquids in the “neat” form, except for several types of films or “pastes.” Polythiophenes, for example, are mostly sold in very dilute solutions (less than 5% concentration), while polyanilines are often used as 25% emulsions. ICP “volumes,” therefore, are almost always reported by weight as dilute solutions or emulsions and overall global estimates derived from various suppliers, the trade press, or reports vary by several hundred percent. ICP suppliers are usually unwilling to provide even the broadest estimates because of the wide disparity of concentrations of the ICPs along with the proprietary nature of this information.

The market data presented are global in scope. Further segmentation into major geographic areas was not feasible.

Conductive Polymers: Technologies and Global Markets
TABLE OF CONTENTS

INTRODUCTION

  • STUDY GOALS AND OBJECTIVES
  • REASONS FOR DOING THE STUDY
  • SCOPE OF THE STUDY
  • METHODOLOGY
  • ANALYSTS' CREDENTIALS
  • DISCLAIMER

SUMMARY

  • SUMMARY TABLE: GLOBAL MARKET FOR ELECTROACTIVE POLYMERS, THROUGH 2021 (MILLION POUNDS/$ MILLIONS)
  • SUMMARY FIGURE: GLOBAL MARKET FOR ELECTROACTIVE POLYMERS, 2015-2021 ($ MILLIONS)

ELECTROACTIVE POLYMER OVERVIEW

  • OVERVIEW
  • BACKGROUND
  • INHERENTLY CONDUCTIVE POLYMERS
  • INHERENTLY DISSIPATIVE POLYMERS (IDPS)
  • CONDUCTIVE PLASTICS

INHERENTLY CONDUCTIVE POLYMERS

  • OVERVIEW
  • ADDITIONAL TECHNICAL DETAILS
  • SYNTHESIZING CONJUGATED POLYMERS
  • CONCEPT OF RESISTIVITIES
    • OVERVIEW
      • TABLE 1 RESISTANCE SPECTRUM FOR METHODS OF MAKING PLASTICS CONDUCTIVE (OHMS/SQ)1
    • CONCEPTS AND NOMENCLATURE
    • BARRIERS TO APPLICATIONS
    • A HANDY WAY OF CATEGORIZING ICPS
      • TABLE 2 CATERGORIZING INHERENTLY CONDUCTIVE POLYMERS
  • ICP HISTORICAL PERSPECTIVE
    • PRIOR TO 1990
    • POST-1990 PERIOD
    • BY 2010
  • 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 DETAILS
      • Background
      • 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
    • 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
      • Polythiophene Derivatives
      • Poly(3-alkylthiophene)
        • PEDOT
        • PEDOT/PSS Complex
        • EDOT
      • Suppliers
        • Heraeus
        • American Dye Source
        • Solvay
      • Applications
    • POLYANILINES
      • Background
      • Overview
      • Synthesis
      • Nature of the Material
      • Processing
      • Doping
        • FIGURE 1 THE FOUR OXIDATION STATES OF POLYANILINE
      • Characteristics and Properties
        • Overview
        • Blending with Commodity Polymers and Elastomers
        • Optical Properties
      • Applications
      • Suppliers
      • Recent Developments
        • Polyaniline Nanowires
        • Polyaniline-Carbon Nanoblend
    • POLYPYRROLES
      • Nature of the Material
      • Processing
      • Potential Applications
      • Suppliers
      • Recent Developments
        • Use of Polypyrrole in Printed Circuit Boards (PCBs)
        • Polypyrrole Material for Artificial Muscles
    • POLYACETYLENES
      • Background
      • Preparation
      • Processing
      • Problem of Environmental Instability
      • Potential Applications
    • OTHER INHERENTLY CONDUCTIVE POLYMERS
      • Polyphenylene Vinylene (PPV)
        • Overview
        • Background
        • Processing
        • Applications
      • Polyfluorenes
      • Polyphenylene Sulfide
      • Phthalocyanines
    • RECENT DEVELOPMENTS IN CONDUCTIVE POLYMERS
      • Second and Third Generation Versions
      • Improved Printing
      • Solar Cell Advances
    • INHERENTLY DISSIPATIVE POLYMERS (IDPS)
      • Overview
      • Technologies
      • Other Technological Aspects and Problems
      • Suppliers
      • Applications

ICP COMPETITIVE RESIN SYSTEMS: CONDUCTIVE PLASTICS

  • BACKGROUND
  • OVERVIEW
  • LIMITATIONS OF A PLASTIC COMPOUND'S RESULTING ELECTRICAL PROPERTIES
  • TECHNIQUES FOR MAKING PLASTICS CONDUCTIVE
    • TABLE 7 HOW TO MAKE PLASTICS CONDUCTIVE
  • RESISTIVITIES
  • TYPES OF CONDUCTIVE PLASTIC MATERIALS
    • FORMULATION OPTIONS
    • COMPOUNDING CONDUCTIVE PLASTICS
    • CONDUCTIVITY TESTS
    • EXAMPLES OF COMPANIES PRODUCING CONDUCTIVE PLASTICS
      • TABLE 8 8SELECTED KEY COMPANIES PRODUCING CONDUCTIVE PLASTICS
  • CONDUCTIVE PLASTIC ADDITIVES
    • OVERVIEW
    • ESD COMPOUNDS
    • ANTISTATIC ADDITIVES
      • Fibers and Powders
      • Carbon Fibers and Powders
        • Overview
        • Carbon Fibers
        • Carbon Blacks
      • Metal Fibers
        • Overview
        • Advantages
        • Metal Fiber Conductivity
        • Metalized Glass Fibers
        • Nickel-Coated Graphite Fibers
          • Background
          • Advantages
        • Stainless Steel Fibers
          • Overview
          • Technology
          • Effect on Processing
          • Fiber Forms
          • Advantages and Disadvantages
            • TABLE 9 ADVANTAGES AND DISADVANTAGES OF STAINLESS STEEL FIBERS
        • Copper Fibers
    • CARBON NANOTUBES
      • Overview
      • Usage in Producing Electrically Conductive Composites
        • Overview
        • Technical Problems
      • Carbon Nanotube Producers/Suppliers
        • TABLE 10 SELECTED KEY SUPPLIERS OF CARBON NANOTUBES
    • GRAPHENE
      • Overview
      • Properties
      • Suppliers
        • TABLE 11 COMPANIES DEVELOPING GRAPHENE COMPOSITE MATERIALS AND APPLICATIONS
        • Usage in Producing Electrically Conductive Composites
      • Applications
    • TECHNICAL ISSUES
    • COSTS
    • RESINS USED
    • CONDUCTIVE FILLER SUPPLIERS
      • TABLE 12 CONDUCTIVE FILLER SUPPLIERS
  • RECENT DEVELOPMENTS IN CONDUCTIVE PLASTICS
    • NEW METHOD OF MAKING CONDUCTIVE PLASTICS
    • PLASTIC COATED METAL FIBER-FILLED CONDUCTIVE PLASTICS
  • OTHER CONDUCTIVE PLASTIC SYSTEMS
    • CONDUCTIVE PAINTS AND COATINGS
      • Background
      • Overview
      • Performance of Alternate Conductive Coatings
        • Background
        • Copper
        • Silver
        • Nickel
    • COATED PLASTICS FOR ESD CONTROL
      • Background
      • Comparisons
      • Other Aspects
      • Conductive Coating Cost Comparisons
    • CONDUCTIVE FILMS
    • EXAMPLES OF COMPANY PRODUCTS
      • Donatech VCF Series
      • Z-Flo Conductive Films
    • CONDUCTIVE ELASTOMERS
    • EXAMPLES OF CONDUCTIVE ELASTOMER PRODUCTS
      • Conductive Composites - Heber City, Utah
      • Laird Technologies - Chesterfield, Mo.
      • Leader Tech - Tampa, Fla.
    • NEW DEVELOPMENTS
      • Electrically Conductive Polyacetal Nanotubes
      • Electrically Conductive Soft TPEs
  • COMPOUNDING CONDUCTIVE PLASTICS
  • KEY SUPPLIERS AND EXAMPLES OF THEIR CONDUCTIVE PLASTIC PRODUCTS
    • BOEDEKER PLASTICS
    • CABOT
    • CIBA SPECIALTY CHEMICALS
    • SABIC
    • LUBRIZOL ADVANCED MATERIALS
    • POLYONE
    • RTP
    • PREMIX THERMOPLASTICS

APPLICATIONS OF ICPS AND CONDUCTIVE PLASTICS

  • OVERVIEW
    • TABLE 13 APPLICATIONS OF ICPS AND CONDUCTIVE PLASTICS
  • CAPACITORS
    • OVERVIEW
    • MATERIALS
    • COMMERCIAL STATUS
  • ELECTROMAGNETIC AND RADIO FREQUENCY INTERFERENCE SHIELDING AND STATIC PROTECTION
    • OVERVIEW
    • MATERIALS
      • Conductive Plastics
      • Inherently Conductive Polymers
      • Inherently Dissipative Polymers
    • COMMERCIAL STATUS
  • SENSORS
    • OVERVIEW
      • Fiber Optic
      • Microbalances
      • Conductive Polymers
    • MATERIALS
      • Remotely Readable Indicators
      • Gas Sensors
      • Odor Sensors
      • Chemical Sensors
      • Biosensors
      • Use of Microelectrodes
    • COMMERCIAL STATUS
  • ANTICORROSION COATINGS
    • OVERVIEW
    • MATERIALS
  • TEXTILES/FABRICS (ELECTROTEXTILES/CONDUCTIVE TEXTILES)
    • OVERVIEW
    • MATERIALS
    • COMMERCIAL STATUS
  • ORGANIC LIGHT-EMITTING DIODES
    • OVERVIEW
      • TABLE 14 MAJOR OLED TECHNOLOGIES
    • MATERIALS
    • COMMERCIAL STATUS
  • SOLAR CELLS
    • OVERVIEW
    • MATERIALS
    • COMMERCIAL STATUS
  • SEMICONDUCTOR TRANSISTORS
    • OVERVIEW
    • MATERIALS
    • COMMERCIAL STATUS
  • BATTERIES
    • OVERVIEW
    • MATERIALS
      • Market Environment
  • OTHER APPLICATIONS
    • AUTOMOTIVE PARTS
    • MEMBRANES
    • AVIATION/AEROSPACE
    • FUEL CELLS
    • RFID TAGS/LABELS
    • MEDICAL/PHARMACEUTICAL APPLICATIONS
      • Artificial Muscles
      • Microfluidics
      • Drug Delivery
      • Neural Regeneration
    • MISCELLANEOUS APPLICATIONS
      • Polymer Lasers
      • Microtools
      • Printing Plates
      • Smart/Electrochromic Windows
      • Camouflage Coatings
      • Solders
      • Electroluminescent Lamps (EL Lamps)

MARKET BY TYPE OF CONDUCTIVE POLYMER

  • INHERENTLY CONDUCTIVE POLYMERS
    • OVERALL MARKET BY VOLUME
      • TABLE 15 GLOBAL ICP MARKET VOLUME BY RESIN TYPE, THROUGH 2021 (THOUSAND POUNDS)
    • OVERALL ICP MARKET BY VALUE
      • TABLE 16 GLOBAL ICP MARKET VALUE BY RESIN TYPE, THROUGH 2021 ($ MILLIONS)
  • ICP MARKET ESTIMATES BY APPLICATION
    • Overview
    • Polythiophenes
      • TABLE 17 GLOBAL POLYTHIOPHENE MARKET BY APPLICATION,THROUGH 2021 (THOUSAND POUNDS)
    • Polyanilines
      • TABLE 18 GLOBAL POLYANILINE MARKET BY APPLICATION, THROUGH 2021 (THOUSAND POUNDS)
    • Polypyrroles
      • TABLE 19 GLOBAL POLYPYRROLE MARKET BY APPLICATION, THROUGH 2021 (THOUSAND POUNDS)
    • Other ICPs
      • TABLE 20 GLOBAL MARKET FOR OTHER ICP APPLICATIONS, THROUGH 2021 (THOUSAND POUNDS)
  • CONDUCTIVE PLASTICS
    • TABLE 21 GLOBAL CONDUCTIVE PLASTIC MARKET VOLUME BY RESIN TYPE, THROUGH 2021 (THOUSAND POUNDS)
    • TABLE 22 GLOBAL CONDUCTIVE PLASTIC MARKET VALUE BY RESIN TYPE, THROUGH 2021 ($ MILLIONS)
  • OVERALL MARKET SUMMARY
    • TABLE 23 GLOBAL ELECTROACTIVE POLYMER MARKET IN VOLUME, THROUGH 2021 (THOUSAND POUNDS)
    • TABLE 24 GLOBAL ELECTROACTIVE POLYMER MARKET IN VALUE, THROUGH 2021 ($ MILLIONS)

CONDUCTIVE POLYMER MARKET BY APPLICATION

  • SUMMARY
    • TABLE 25 GLOBAL ELECTROACTIVE POLYMER MARKET BY APPLICATION, THROUGH 2021 (THOUSAND POUNDS)
  • ICP MARKETS BY APPLICATION
  • OVERVIEW
    • TABLE 26 GLOBAL ICP MARKET BY APPLICATION, THROUGH 2021 (THOUSAND POUNDS)
  • CAPACITORS
    • TABLE 27 GLOBAL CAPACITOR MARKET BY ICP PRODUCT TYPE,THROUGH 2021 (THOUSAND POUNDS)
  • ESD/Antistatic Packaging
    • TABLE 28 GLOBAL ESD/ANTISTATIC PACKAGING MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
  • CORROSION PROTECTION
    • TABLE 29 GLOBAL CORROSION PROTECTION MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
  • SENSORS
    • TABLE 30 GLOBAL SENSOR MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
  • OLEDS
    • TABLE 31 GLOBAL OLED MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
  • SOLAR CELLS
    • TABLE 32 GLOBAL SOLAR CELL MARKET BY ICP POLYMER TYPE, THROUGH 2021 (THOUSAND POUNDS)
  • TEXTILES/FABRICS
    • TABLE 33 GLOBAL TEXTILES/FABRICS MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
  • ORGANIC SEMICONDUCTORS
    • TABLE 34 GLOBAL ORGANIC SEMICONDUCTOR MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
  • BATTERIES
    • TABLE 35 GLOBAL BATTERY MARKET BY ICP PRODUCT TYPE,THROUGH 2021 (THOUSAND POUNDS)
  • MISCELLANEOUS APPLICATIONS
    • TABLE 36 GLOBAL MARKET FOR MISCELLANEOUS APPLICATIONS BY ICP TYPE, THROUGH 2021 (THOUSAND POUNDS)
  • CONDUCTIVE PLASTICS MARKET BY APPLICATION
    • TABLE 37 GLOBAL CONDUCTIVE PLASTICS MARKET BY APPLICATION, THROUGH 2021 (THOUSAND POUNDS)1

RECENT CONDUCTIVE POLYMER PATENT ACTIVITY

  • OVERVIEW
    • FIGURE 2 NUMBER OF ICP-RELATED U.S. PATENTS AND PATENT APPLICATIONS ISSUED BY TYPE OF MATERIAL THROUGH JULY 1, 2016
    • PATENT SUMMARIES
    • FULLY INTEGRATED ORGANIC LAYERED PROCESSES FOR MAKING PLASTIC ELECTRONICS BASED ON CONDUCTIVE POLYMERS
    • PRINTING OF ORGANIC CONDUCTIVE POLYMERS CONTAINING ADDITIVES
    • WATER DISPERSIBLE POLYPYRROLES MADE WITH POLYMERIC ACID COLLOIDS FOR ELECTRONIC APPLICATIONS
    • MULTIFUNCTIONAL 3,4-ALKYLENEDIOXY THIOPHENE DERIVATIVES AND ELECTRICALLY CONDUCTIVE POLYMERS CONTAINING THEM
    • BARRIER LAYERS FOR COATING CONDUCTIVE POLYMERS ON LIQUID CRYSTALS
    • DEVELOPMENT OF NOVEL PROTON-CONDUCTIVE POLYMERS FOR PROTON EXCHANGE MEMBRANE FUEL CELL (PEMFC) TECHNOLOGY
    • DISPERSIONS OF INTRINSICALLY CONDUCTIVE POLYMERS AND METHODS FOR THE PRODUCTION THEREOF
    • FLUORESCENT, SEMICONDUCTIVE POLYMERS, AND DEVICES COMPRISING THEM
    • IMPLANTABLE HEART VALVE PROSTHETIC DEVICES HAVING INTRINSICALLY CONDUCTIVE POLYMERS
    • WATER DISPERSABLE POLYANILINES MADE WITH POLYMERIC ACID COLLOIDS FOR ELECTRONIC APPLICATIONS
    • COMPOSITIONS OF ELECTRICALLY CONDUCTIVE POLYMERS AND NONPOLYMERIC FLUORINATED ORGANIC ACIDS
    • POLYTHIOPHENE AND ELECTRONIC DEVICES COMPRISING THE SAME
    • SOLUBLE POLYTHIOPHENE DERIVATIVES
    • SEMICONDUCTOR COMPOSITION INCLUDING A SEMICONDUCTING POLYMER
    • MEMBRANE COMPOSITIONS AND METHODS FOR MAKING AND USING THEM

COMPANY PROFILES

  • ABTECH SCIENTIFIC INC.
  • AGFA-GEVAERT GROUP NV
  • AMERICAN DYE SOURCE INC.
  • BASF INC.
  • BOEDEKER INC.
  • CAMBRIDGE DISPLAY TECHNOLOGY
  • CELANESE CORP.
  • CENTRAL CORP.
  • E.I DUPONT DE NEMOURS AND CO.
  • EEONYX
  • EVONIK DEGUSSA GMBH
  • HERAEUS PRECIOUS METALS
  • HYPERION CATALYSIS INTL. INC.
  • KEMET CORP.
  • KLOCKNER PENTAPLAST OF AMERICA
  • LNP ENGINEERING PLASTICS
  • LUBRIZOL ADVANCED MATERIALS
  • MERCK KGAA
  • PLASTIC LOGIC GERMANY
  • POLYONE
  • PREMIX OY
  • RIEKE METALS INC.
  • RTP CO.
  • SHIN-ETSU POLYMER EUROPE BV
  • STERLING FIBERS
  • UNIVERSAL DISPLAY CORP.
  • VORBECK MATERIALS
  • WESTLAKE PLASTICS CO.
  • XG SCIENCES INC.

CHAPTER 11 - ACRONYMS

LIST OF TABLES

SUMMARY TABLE: GLOBAL MARKET FOR ELECTROACTIVE POLYMERS, THROUGH 2021 (MILLION POUNDS/$ MILLIONS)TABLE 1: RESISTANCE SPECTRUM FOR METHODS OF MAKING PLASTICS CONDUCTIVE (OHMS/SQ)1
TABLE 2: CATERGORIZING INHERENTLY CONDUCTIVE POLYMERS
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: HOW TO MAKE PLASTICS CONDUCTIVE
TABLE 8: 8SELECTED KEY COMPANIES PRODUCING CONDUCTIVE PLASTICS
TABLE 9: ADVANTAGES AND DISADVANTAGES OF STAINLESS STEEL FIBERS
TABLE 10: SELECTED KEY SUPPLIERS OF CARBON NANOTUBES
TABLE 11: COMPANIES DEVELOPING GRAPHENE COMPOSITE MATERIALS AND APPLICATIONS
TABLE 12: CONDUCTIVE FILLER SUPPLIERS
TABLE 13: APPLICATIONS OF ICPS AND CONDUCTIVE PLASTICS
TABLE 14: MAJOR OLED TECHNOLOGIES
TABLE 15: GLOBAL ICP MARKET VOLUME BY RESIN TYPE, THROUGH 2021 (THOUSAND POUNDS)
TABLE 16: GLOBAL ICP MARKET VALUE BY RESIN TYPE, THROUGH 2021 ($ MILLIONS)
TABLE 17: GLOBAL POLYTHIOPHENE MARKET BY APPLICATION,THROUGH 2021 (THOUSAND POUNDS)
TABLE 18: GLOBAL POLYANILINE MARKET BY APPLICATION, THROUGH 2021 (THOUSAND POUNDS)
TABLE 19: GLOBAL POLYPYRROLE MARKET BY APPLICATION, THROUGH 2021 (THOUSAND POUNDS)
TABLE 20: GLOBAL MARKET FOR OTHER ICP APPLICATIONS, THROUGH 2021 (THOUSAND POUNDS)
TABLE 21: GLOBAL CONDUCTIVE PLASTIC MARKET VOLUME BY RESIN TYPE, THROUGH 2021 (THOUSAND POUNDS)
TABLE 22: GLOBAL CONDUCTIVE PLASTIC MARKET VALUE BY RESIN TYPE, THROUGH 2021 ($ MILLIONS)
TABLE 23: GLOBAL ELECTROACTIVE POLYMER MARKET IN VOLUME, THROUGH 2021 (THOUSAND POUNDS)
TABLE 24: GLOBAL ELECTROACTIVE POLYMER MARKET IN VALUE, THROUGH 2021 ($ MILLIONS)
TABLE 25: GLOBAL ELECTROACTIVE POLYMER MARKET BY APPLICATION, THROUGH 2021 (THOUSAND POUNDS)
TABLE 26: GLOBAL ICP MARKET BY APPLICATION, THROUGH 2021 (THOUSAND POUNDS)
TABLE 27: GLOBAL CAPACITOR MARKET BY ICP PRODUCT TYPE,THROUGH 2021 (THOUSAND POUNDS)
TABLE 28: GLOBAL ESD/ANTISTATIC PACKAGING MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
TABLE 29: GLOBAL CORROSION PROTECTION MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
TABLE 30: GLOBAL SENSOR MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
TABLE 31: GLOBAL OLED MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
TABLE 32: GLOBAL SOLAR CELL MARKET BY ICP POLYMER TYPE, THROUGH 2021 (THOUSAND POUNDS)
TABLE 33: GLOBAL TEXTILES/FABRICS MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
TABLE 34: GLOBAL ORGANIC SEMICONDUCTOR MARKET BY ICP PRODUCT TYPE, THROUGH 2021 (THOUSAND POUNDS)
TABLE 35: GLOBAL BATTERY MARKET BY ICP PRODUCT TYPE,THROUGH 2021 (THOUSAND POUNDS)
TABLE 36: GLOBAL MARKET FOR MISCELLANEOUS APPLICATIONS BY ICP TYPE, THROUGH 2021 (THOUSAND POUNDS)
TABLE 37: GLOBAL CONDUCTIVE PLASTICS MARKET BY APPLICATION, THROUGH 2021 (THOUSAND POUNDS)

LIST OF FIGURES

SUMMARY FIGURE: GLOBAL MARKET FOR ELECTROACTIVE POLYMERS, 2015-2021 ($ MILLIONS)

FIGURE 1: THE FOUR OXIDATION STATES OF POLYANILINE

FIGURE 2: NUMBER OF ICP-RELATED U.S. PATENTS AND PATENT APPLICATIONS ISSUED BY TYPE OF MATERIAL THROUGH JULY 1, 2016

Date of Publication:
Sep 7, 2016
File Format:
PDF via E-mail
Number of Pages:
125 Pages