Electroactive Polymer Market Snapshot

“From 2023 to 2030, the Electroactive Polymer Market is estimated to develop at a CAGR of 7.35%. It is predicted to grow to more than USD 8.77 billion by 2030, up from USD 4.5 billion in 2023.”

EAPs are polymers that undergo size or composition changes when exposed to an electric field. Actuators and sensors use these polymers in their construction. They are utilized in sensors and activators and are created to convert sensors and actuators in response to electrical consumption as a result of powerful electric field reactions.

They offer advantages including being inexpensive, simple to manufacture, light, and technologically advanced. A characteristic of EAPs is that they exceed significant deformation while generating forces with varying electroactive compositions or sizes when an electric field is present.

Due to their ease of formation in a variety of shapes and sizes thanks to straightforward production ingredients, these polymers have extremely varied ions.

High demand exists for polymer materials that are robust, lightweight, and long-lasting. This is what automakers in the automotive sector are attempting to do by utilizing electroactive polymers that contain electrical components including numerous polymers, accelerometers, and accelerator pedal modules.

In the automotive industry, this has led to a significant increase in demand for electroactive polymers.  The demand for the product is anticipated to rise over the course of the forecast period due to a growth in the usage of electroactive polymers, such as polyps-blocking polymers, in ferrous and non-ferrous alloys, metamorphic biomaterial, actuators, and protective fabrics. Electronic polymers are used inadvertently in mechanical and engineering products, which supports the market expansion of electroactive polymers.

Electronic polymers are very difficult to decompose, which can cause a few environmental issues that impede industry expansion. However, one of the key elements influencing the market is functional polymers with fluctuating pricing.

In the upcoming years, there are promising growth prospects for the expanding usage of electronic polymers made to avoid corrosion in sterile and non-ferrous metals, actuators, metamorphic biomatadium, and textile protection fabrics.

The primary drivers anticipated to propel market growth are the rise in electroactive polymer use in the healthcare industry and the acceptance of polymers in electronics in a variety of manufacturing industries due to their cheaper cost than other alloys and metals.

Due to the widespread usage of actuators in robotics, research, and development in this field are anticipated to present excellent business possibilities for the major players in the international market.

Some sectors changed their focus as a result of the pandemic, placing a bigger emphasis on healthcare and medical applications. In contrast to other industries, the demand for electroactive polymers used in medical equipment like prosthetics and wearable sensors was comparatively more stable.

Resilience and adaptation are becoming more important as nations and industries progressively recover from the pandemic. With their special qualities, electroactive polymers can help with new difficulties like the demand for flexible electronics, touchless interfaces, and smart materials for safety and healthcare applications.

The COVID-19 epidemic has caused chaos-like conditions across the world and has halted industry-wide production of electroactive polymers. As manufacturing activity has decreased, so has the demand for plastics and polymers. This has had a big impact on electroactive polymers. 

The lockdown has caused the end-use industries to shut down throughout the nation. This caused the economy to slow down, prices to fall, and industries to experience financial catastrophe.

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Growth Drivers

Sensors, actuators, electronics, and power sources can be woven into sensing and actuating microfibers (EAPs) in smart fabrics, which are made from polypyrrole and polyanilines.

Demand for EAPs in smart textiles is expected to rise due to increased R&D and rapid expansion in countries like the United States, Japan, and China.

The United States is the most important market for smart fabrics, while Europe and Asia Pacific are also predicted to expand rapidly. Smart fabrics have various applications in health monitoring, rehabilitation, ergonomics, sports, and telemedicine.

Restraint

EAPs production faces challenges due to the difficulty in obtaining raw materials and their potential environmental toxicity. Proper disposal of EAP waste can harm the environment and food chain.

EAP makers may face increased costs due to non-biodegradable disposal. The government has imposed strict restrictions on EAP usage, and environmental rules governing petroleum product use limit market expansion.

Opportunity

EAPs are being used in biomimetics, creating polymers to resemble muscles. Despite being in its early stages, devices replicating birds, fish, insects, and plants have been produced.

Eamex Corporation has produced floajet, an EAP-actuated fish. Research on artificial intelligence, vision, and artificial muscle is ongoing. EAPs with properties similar to biological muscles, such as flexibility, robustness, massive actuation, and damage tolerance, have great potential for future applications.

Electroactive Polymer Market Segment Analysis

Based on type

Based on type, a significant portion of the market was made up of inherently conductive polymers. Electronics, automotive, aerospace, energy, and the healthcare sectors are just a few of the industries where inherently conductive polymers are used. Organic electronics, sensors, antistatic coatings, capacitors, batteries, and corrosion prevention are a few applications for them.

Inherently conductive polymers are useful for applications requiring electrical functionality due to they can conduct electricity. To improve electrical qualities, they can be combined with other materials or utilized as a substitute for more conventional conductive materials like metals. Polymers that are inherently conductors allow for easy shaping and formation into a variety of forms thanks to their great flexibility and processability. They are the perfect choice for lightweight, flexible applications that need components, such as flexible screens, and wearable electronics.

Based on application

Based on application, a significant portion of the market was made up of actuators. Robotics uses electroactive polymer actuators for grippers, artificial muscles, and precise positioning, among other things. They are useful in generating lifelike movements in robotic systems due to their capacity to deliver precise and quick actuation. In haptic feedback technologies, such as touchscreens and virtual reality systems, electroactive polymer actuators are used.

They make it possible to create tactile sensations, which improve the user experience by giving accurate input. Adaptive suspension systems, active aerodynamics, and engine control systems are just a few of the automobile applications in that electroactive polymer actuators can be used. The performance, safety, and fuel efficiency of these actuators can all be enhanced.

Electroactive Polymer Market Competitors

The market research report covers the analysis of market players. Key companies profiled in the report include Solvay SA, Parker Hannifin Corporation, AGFA-Gevaert, The 3M Company, Merck & Company, Inc., Premix, The Lubrizol Corporation, Novasentis, Inc., PolyOne Corporation, RTP Company.

New Developments

On May 2023, Solvay, a global market leader in specialty materials, announced the launch of KetaSpire® KT-857, a new polyetheretherketone (PEEK) extrusion compound designed especially for copper magnet wire insulation in electric motors. The development of the custom-engineered insulation material was driven by the move of OEMs towards higher-density batteries and electric powertrains operating at 800V or above to address the range anxiety of consumers.

September 2022: Motion and control technologies company Parker-Hannifin Corp. completed its acquisition of aerospace and defense components manufacturer Meggitt PLC. Meggitt is said to have diverse aerospace and defense exposure with technology and products on almost every major aircraft platform. According to Parker-Hannifin, combining Meggitt’s and Parker’s product lines will enable greater support of electrification and net-zero emissions goals.

On June 2020, Parker Hannifin Corporation, the global leader in motion and control technologies, announced that it is embarked on the development of new smart sensors and actuators using electroactive polymer technology. Parker recently acquired intellectual property and licenses for the technology from Bayer Material Science LLC and its Artificial Muscle Incorporated (AMI) business unit.

Electroactive Polymer Market Regional Outlook

The greatest revenue share in 2022 over 41% was accounted for by Asia Pacific. Asia Pacific is forecast to grow rapidly and be the market with the greatest rate of expansion throughout the research period. In the growing nations of Asia and the Pacific, the increase in industry and urbanization is accelerating the development of electroactive polymers.

Furthermore, the growth of the market is anticipated to be fueled by the area's rise as a beneficial manufacturing center. The region's need for the electroactive polymer is also being boosted by the expanding electrical, electronics, and automotive industries. 

The biggest users of electroactive polymers in this region are China, India, and Japan. The greatest market is expected to be in North America, followed by Europe. The increase is mostly being driven by the developed end-user industries, including, among others, the transportation, and electronics sectors.

Segments Covered in the Electroactive Polymer Market

Electroactive Polymer Market by Type

• Conductive Plastics
• Inherently Conductive Polymers
• Inherently Dissipative Polymers

Electroactive Polymer Market by Application

• Electrostatic Discharge Protection
• Electromagnetic Interference Shielding
• Actuators
• Capacitors
• Batteries
• Sensors
• Others (Textiles and Fabrics, OLEDs, Solar Cells, And Organic/Plastic Transistors)

The above information has been provided for the following regions and countries

North America

• U.S.
• Canada

Europe

• UK
• Germany
• France
• Italy
• Russia

Asia Pacific

• China
• India
• Japan
• South Korea

Latin America

• Brazil
• Mexico

MEA

• UAE
• Saudi Arabia
• South Africa

Frequently Asked Questions

What is the worth of the electroactive polymer market?

From 2023 to 2030, the Electroactive Polymer Market is estimated to develop at a CAGR of 7.35%. It is predicted to grow to more than USD 8.77 billion by 2030, up from USD 4.5 billion in 2023.

What is the size of the Asia Pacific in the electroactive polymer market?

Asia Pacific held more than 41% of the electroactive polymer market revenue share in 2022 and will witness expansion in the forecast period.

What are some of the electroactive polymer market's driving forces?

The increasing demand from the automotive and electronics industries, which will pave the way for market growth, is one of the factors anticipated to restrain the growth of the electroactive polymers market during the forecast period.  Additionally, the items made from electroactive polymers are likely to temper the expansion of the overall market due to they are more lightweight, robust, and have higher conducting qualities.

Which are the top companies to hold the market share in the electroactive polymer market?

The market research report covers the analysis of market players. Key companies profiled in the report include Solvay SA, Parker Hannifin Corporation, AGFA-Gevaert, The 3M Company, Merck & Company, Inc., Premix, The Lubrizol Corporation, Novasentis, Inc., PolyOne Corporation, RTP Company.

Which is the largest regional market for the electroactive polymer market?

Due to the region's easy access to raw materials, the presence of numerous electroactive polymer manufacturers, and the rising demand for electronic applications from nations like China, South Korea, Japan, and India, electroactive polymers are most popular in Asia-Pacific. During the projection period, North America and Europe are also anticipated to present sizable growth potential.

1.Summary

1.1. Electroactive Polymer Market Overview

1.2. Key Insights

1.3. Report Scope

1.4. Research Methodology

1.5. Frequently Asked Questions

1.6. Chapter Outlines

2. Decision-Making Summary
3. Introduction

3.1. Overview Of Electroactive Polymer

3.2. Key Historical Events

3.3. Structure

3.4. Biochemical Interaction

3.5. Target Indications

3.6. Advantages Of Electroactive Polymer

3.7 Challenges Associated With Electroactive Polymer

3.8. Future Perspectives.

4. Market Landscape

4.1. Methodology

4.2 Electroactive Polymer: Developer Landscape

4.2.1. Analysis by Year Of Establishment

4.2.2. Analysis By Company Size

4.2.3. Analysis By Location Of Headquarters (Region-Wise)

4.2.4. Analysis By Location Of Headquarters (Country-Wise)

4.2.5. Analysis By Year Of Establishment, Company Size And Location Of Headquarters (Region-Wise)

4.2.6. Most Active Players

5. Company

5.1. Company Overview

5.1.2 Management Team

5.1.3. Product Portfolio

5.1.4. Recent Developments And Future Outlook

6. Partnerships And Collaborations

6.1. Partnership Models

6.2. Electroactive Polymer: Partnerships And Collaborations

6.2.1. Analysis By Year Of Partnership

6.2.2. Analysis By Type Of Partnership

6.2.3. Analysis By Year And Type Of Partnership

6.2.4. Analysis By Type Of Partner

6.2.5. Analysis by Year Of Partnership And Type Of Partner

6.2.6. Analysis By Type Of Partnership And Type Of Partner

6.2.7. Analysis By Type Of Partner And Parent Company Size

7. Academic Grants Analysis

7.1. Methodology And Key Parameters

7.2. Electroactive Polymer: Academic Grants Analysis

7.2.1. Analysis By Year Of Grant Award

7.2.2. Analysis By Amount Awarded

7.2.3. Analysis By Funding Institute Center

7.2.4. Analysis By Support Period

7.2.5. Analysis By Funding Institute Center And Support Period

7.2.6. Analysis by Type Of Grant Application

7.2.7. Analysis By Purpose Of Grant

8. Publication Analysis

8.1. Analysis Methodology And Key Parameters

8.2. Electroactive Polymer: Publication Analysis

8.2.1. Analysis by Year Of Publication

8.2.2. Analysis By Type Of Publication

8.2.3. Analysis by Type Of Conjugate

8.2.4. Analysis by Target Indication

8.2.5. Analysis by Copyright Holder

8.2.6. Word Cloud: Emerging Focus Area

8.2.7. Most Active Publishers: Analysis By Number Of Publications

9. Success Protocol Analysis

9.1. Methodology and Key Parameters

9.2. Key Assumptions and Scoring Criteria

9.3. Success Protocol Analysis

9.4. Assessment of Approved Electroactive Polymer

10. Appendix 1: Tabulated Data
11. Appendix 2: List of Companies 

1. TOYOBO Co. Ltd.
2. DuPont
3. Panasonic Corporation
4. Eastman Kodak Company
5. Saint-Gobain S.A.
6. GUNZE LIMITED
7. Nitto Denko Corporation
8. Teijin Limited
9. 3M Company
10. TDK Corporation

Research Methodology