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Key Features
- Offers introductory coverage of polymeric materials for electronics, including principles, design, properties, fabrication and applications
- Focuses on key issues such as materials selection, structure-property relationships and challenges in application
- Explores advanced applications of polymers in photovoltaics, transistors, sensors, light-emitting diodes and stretchable electronics
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About the Book
Polymers in Electronics: Optoelectronic Properties, Design, Fabrication, and Applications brings together the fundamentals and latest advances in polymeric materials for electronic device applications, supporting researchers, scientists and advanced students, and approaching the topic from a range of disciplines. The book begins by introducing polymeric materials, their dielectric, optical, and thermal properties, and the essential principles and techniques for polymers as applied to electronics. This is followed by detailed coverage of the key steps in the preparation of polymeric materials for opto-electronic devices, including fabrication methods, materials design, rheology, encapsulation, and conductive polymer mechanisms.
The final part of the book focuses on the latest developments in advanced devices, covering the areas of photovoltaics, transistors, light-emitting diodes, and stretchable electronics. In addition, it explains mechanisms, design, fabrication techniques, and end applications. This is a highly valuable resource for researchers, advanced students, engineers and R&D professionals from a range of disciplines. Approx. 150 illustrations (25 in full color)
Readership
Advanced students and researchers in opto-electronics or conducting polymers, and across polymer science, chemistry, materials engineering, electronics, Engineers, industrial scientists, and R&D professionals interested in polymeric materials for electronic applications
Content
View Table of Contents
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