Conductive Polymers

Abstract

INTRODUCTION

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-à-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).

SCOPE OF STUDY

This report contains:

• Descriptions of various electroactive polymer applications including electrostatic dissipation control, antistatic packaging, light emitting displays, capacitors, electrostatic paintable plastics, corrosion-resistant paints/coatings and electrostatic spray painting
• The current global market status for electroactive polymers, with trends and forecasts for growth over the next 5 years
• Analysis of the electroactive polymer industry on a worldwide basis, both from a market and application perspective
• The latest technological advancements along with a thorough patent analysis
• Company profiles.

METHODOLOGY

Both primary and secondary research sources were used to gather information, including:

• Complete literature review on products and technology.
• Patent search.
• Contacts with key personnel from producers, suppliers, and end users.