Explains the "doping" process—how adding or removing electrons from the polymer chain (like polyaniline or polypyrrole) allows charge to move.
Radar-absorbing coatings (stealth technology), anti-corrosion paints, and artificial muscles (actuators). 4. Processing and Commercialization
Plastic solar cells, Organic Light Emitting Diodes (OLEDs), and flexible circuits. Conducting Polymers, Fundamentals and Applicati...
Techniques used to measure their properties, such as UV-Vis spectroscopy, cyclic voltammetry, and scanning electron microscopy (SEM). 2. Properties
Detailed guides on how to create these polymers through chemical oxidation or electrochemical polymerization. Properties Detailed guides on how to create these
How to take these materials from a lab beaker to a manufacturing line, including solubility issues and blending them with traditional plastics.
The second half of the book focuses on how these "synthetic metals" are used in the real world: Processing and Commercialization Plastic solar cells
This likely refers to the academic book by Prasanna Chandrasekhar . It is a foundational text in materials science that explains how certain plastics can be engineered to conduct electricity.