
Handbook of Polymers for Electronics
- 2nd Edition - March 1, 2026
- Latest edition
- Author: George Wypych
- Language: English
Handbook of Polymers for Electronics, Second Edition delivers a comprehensive overview of the latest advancements in polymers for electronic applications. Drawing from curren… Read more

Handbook of Polymers for Electronics, Second Edition delivers a comprehensive overview of the latest advancements in polymers for electronic applications. Drawing from current literature, manufacturing insights, and patent filings, it organizes all polymer data into a clear, consistent format. Readers will find sections on history, synthesis, structure, commercial polymers, and essential properties such as physical, electrical, and mechanical characteristics. The book also addresses chemical resistance, flammability, weather and thermal stability, biodegradation, toxicity, environmental impact, processing techniques, polymer blends, and analytical methods. This resource is indispensable for professionals working with modern polymeric materials in electronics.
Beyond its technical data, the handbook emphasizes the diverse roles polymers play in high-tech fields like space, aviation, healthcare, automotive, communications, energy harvesting, lighting, sensing, robotics, and consumer electronics. While conductivity remains a central attribute, the book covers advanced features including shape-memory, piezoelectricity, and ferroelectricity.
Beyond its technical data, the handbook emphasizes the diverse roles polymers play in high-tech fields like space, aviation, healthcare, automotive, communications, energy harvesting, lighting, sensing, robotics, and consumer electronics. While conductivity remains a central attribute, the book covers advanced features including shape-memory, piezoelectricity, and ferroelectricity.
- Synthesizes the most recent literature available on various grades of polymers, plastics, finished products, and patents
- Provides data on general information, synthesis, structure, physical properties, electrical properties, mechanical properties, chemical resistance, flammability, weather stability, thermal stability, biodegradation, toxicity, environmental impact, and more
- Details information on crystalline structure, cell dimensions, methods of synthesis, optoelectrical properties, relative permittivity, dissipation factor, actuation bandwidth, tear strength, abrasion resistance, and more
Researchers and graduate students in the areas of electronic engineering, chemical engineering, materials engineering, optoelectronics, and mechanical engineering, Professionals working these same areas
1. General Information about the Handbook of Polymers for Electronics
2. History of Polymers for Electronics
3. Synthesis of Polymers for Electronics
4. Structure of Polymers for Electronics
5. Commercial Polymers for Electronics
6. Physical Properties of Polymers for Electronics
7. Electrical Properties of Polymers for Electronics
8. Mechanical Properties of Polymers for Electronics
9. Chemical Resistance of Polymers for Electronics
10. Flammability of Polymers for Electronics
11. Weather Stability of Polymers for Electronics
12. Thermal Stability of Polymers for Electronics
13. Biodegradation of Polymers for Electronics
14. Toxicity of Polymers for Electronics
15. Environmental Impact of Polymers for Electronics
16. Processing of Polymers for Electronics
17. Blends of Polymers for Electronics
18. Analysis of Polymers for Electronics
2. History of Polymers for Electronics
3. Synthesis of Polymers for Electronics
4. Structure of Polymers for Electronics
5. Commercial Polymers for Electronics
6. Physical Properties of Polymers for Electronics
7. Electrical Properties of Polymers for Electronics
8. Mechanical Properties of Polymers for Electronics
9. Chemical Resistance of Polymers for Electronics
10. Flammability of Polymers for Electronics
11. Weather Stability of Polymers for Electronics
12. Thermal Stability of Polymers for Electronics
13. Biodegradation of Polymers for Electronics
14. Toxicity of Polymers for Electronics
15. Environmental Impact of Polymers for Electronics
16. Processing of Polymers for Electronics
17. Blends of Polymers for Electronics
18. Analysis of Polymers for Electronics
- Edition: 2
- Latest edition
- Published: March 1, 2026
- Language: English
GW
George Wypych
George Wypych has a Ph.D. in chemical engineering. His professional expertise includes both university teaching (full professor) and research and development. He has published 18 books, 47 scientific papers, and he has obtained 16 patents. He specializes in polymer additives, polymer processing and formulation, material durability and the development of sealants and coatings.
Affiliations and expertise
ChemTec Publishing, Ontario, Canada