Impact Assessment of Polymers in the Electronics Industry

Impact Assessment of Polymers in the Electronics Industry

Advancements in Polymer Materials Drive Opportunities in the Semiconductor and Sensor Sectors

RELEASE DATE
31-Mar-2020
REGION
Global
Deliverable Type
Technology Research
Research Code: D93B-01-00-00-00
SKU: ES01145-GL-TR_24281
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ES01145-GL-TR_24281

Impact Assessment of Polymers in the Electronics Industry
Published on: 31-Mar-2020 | SKU: ES01145-GL-TR_24281

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Polymer Electronics is a novel technology platform that paves the way for revolutionary small, flexible, wide area electronic devices that can be produced at low cost in very high volumes.
Polymer Electronics technology is based on organic materials that are conductive, and semiconductive. There are many different types of such materials, including organic molecules and polymers, nanomaterials (organic and inorganic), carbon nanotubes, and many others. They can be manufactured by means of printing methodologies in large volumes on flexible substrates.
The technology has immense potential in many application fields, including RFID, screens, lighting, solar cells, cameras, memories, and smart objects.

Key Questions Answered in the Technology and Innovation Study
1. What is the significance of polymer electronics and its impact?
2. What are the current trends and developments that are driving the opportunities for polymers in the electronics market?
3. What are the technology capabilities of various sensors and electronics technologies?
Key innovations and their application impact
IP and Funding scenario
Growth opportunities and critical success factors
Companies to Watch
4. Analyst Perspective

1.1 Scope of the Technology and Innovation Research

1.2 Research Methodology

1.3 Research Methodology Explained

1.4 Summary of Key Findings

1.5 Impact of Polymers on Electronics and Sensor Technologies

2.1 Polymers in Electronics – Technology Overview and Properties

2.2 CMOS-based Polymers and Flexible Displays are the Key Trends in Polymer Electronics

3.1 Intelligent Microsensors - Technology Snapshot and Features

3.2 Stringent Regulations Hindering Rapid Adoption of Intelligent Microsensor Products

3.3 Patent Research Focus Areas are more towards Development of Medical Devices

3.4 Innovations in Polymer Materials Drive Developments in the Smart Microsensor Systems Arena

3.5 Smart Microsensors Key Developments and Growth Opportunities

3.6 Automotive, Healthcare, and Industrial Automation are Key Growth Areas

4.1 Human Machine Interfaces - Technology Snapshot and Future Scenario

4.2 Design and Cost Factors Hindering Rapid Adoption of HMI Technologies

4.3 Patent Research Focus Areas are more towards Development of Touchless Sensing Devices

4.4 Innovations in Polymer Materials Drive Developments in Human Machine Interface Technologies

4.5 Human Machine Interface Technology Trends and Growth Opportunities

4.6 Automotive, Consumer Electronics, and Healthcare are Key Growth Areas

5.1 Impact of Polymers in Printed Electronics

5.2 Lack of Standardization Hindering Rapid Adoption of Printed and Flexible Electronic Products

5.3 Tier-1 OEMs Strengthen their IP Portfolio to Emerge as Potential Leaders in the PE Space

5.4 Structural Electronics and Advanced Material Sciences are Trends Dominating Advancements in Printed Electronics

5.5 Government Bodies across the Globe Actively Partnering with Industry and Academia to Bolster R&D in the Field of Printed Electronics

5.6 Application Diversity of Printed Electronics

6.1 Developments in Polymer-based Energy Harvesting Technology

6.2 Lack in Power Density Hindering Rapid Adoption of Energy Harvesting Products

6.3 Patenting Trend Indicates Increased Interest on Aspects such as Energy Consumption, Performance and Cost Reduction

6.4 Advancements in Polymer Materials Driving the Energy Harvesting Sector

6.5 Wireless Sensor Networks and Material Innovations to Boost the Global EH Market

6.6 Smart Buildings, Healthcare, and Industrial Automation are Key Growth Areas

7.1 Artificial Intelligence and IoT Applications are Key Growth Areas for Polymer-based Electronics

7.2 Analyst Insights

8.1 Key Industry Contacts

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Polymer Electronics is a novel technology platform that paves the way for revolutionary small, flexible, wide area electronic devices that can be produced at low cost in very high volumes. Polymer Electronics technology is based on organic materials that are conductive, and semiconductive. There are many different types of such materials, including organic molecules and polymers, nanomaterials (organic and inorganic), carbon nanotubes, and many others. They can be manufactured by means of printing methodologies in large volumes on flexible substrates. The technology has immense potential in many application fields, including RFID, screens, lighting, solar cells, cameras, memories, and smart objects. Key Questions Answered in the Technology and Innovation Study 1. What is the significance of polymer electronics and its impact? 2. What are the current trends and developments that are driving the opportunities for polymers in the electronics market? 3. What are the technology capabilities of various sensors and electronics technologies? Key innovations and their application impact IP and Funding scenario Growth opportunities and critical success factors Companies to Watch 4. Analyst Perspective
More Information
Deliverable Type Technology Research
No Index No
Podcast No
Author Varun B
Industries Electronics and Sensors
WIP Number D93B-01-00-00-00
Is Prebook No