| Course Contents |
| Introduction to the history of conductive polymers, organic polymers, conductivity, electrical and ionic conductivity, photoconductivity in polymers. With the synthesis of conductive polymer doping process, Polaron formation of bipolarons and solitons. Transportation of goods by the jump model. Conductivity measurement techniques, the two-point technique, the four-point technique. Methods of synthesis of conductive polymers. The main conductive polymers, polyaniline, politiyofen, polypyrrole, polifuran, poliindol, poliinden, poly (p-phenylene), poly (p-phenylene sulfide), poly (N-vinilkarbazol). Factors affecting the conductivity of electroactive polymers. Conductive composite, blend and copolymer synthesis. Areas of conductive polymers
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| Weekly Course Content |
| Week |
Subject |
Learning Activities and Teaching Methods |
| 1 |
Introduction, History of Conducting Polymers, conductivity of organic polymers. |
On the subject of discussion and evaluation |
| 2 |
Electrical and ionic conductivity, photoconductivity in polymers, polymers exposed to high energy radiation. |
On the subject of discussion and evaluation |
| 3 |
Materials Used in Aerospace and Commercial Polymers, Doping Process Conducting Polymer Synthesis with, polarons, bipolarons and Soliton Formation. |
On the subject of discussion and evaluation |
| 4 |
Charge Transportation with Hopping Model, Conductivity Measurement Techniques, Two-Point Technique, Four-Point Technique. |
On the subject of discussion and evaluation |
| 5 |
Conductive Polymers Synthesis Methods, Chemical Methods, Electrochemical Methods, Chemical and Electrochemical Methods, Metal Containing Coordination Polymers, by the Method of Self-Doping Conducting Polymer Synthesis, Other Methods. |
On the subject of discussion and evaluation |
| 6 |
The main conductive polymers, polyaniline, Politiyofen, PPy, Polifuran, Poliindol, Poliinden, poly (p-phenylene), poly (p-phenylene sulfide), poly (N-vinilkarbazol). |
On the subject of discussion and evaluation |
| 7 |
Factors affecting the conductivity of Electroactive Polymers, Effect of Synthesis Method, Media, and pH Effect, Effect of dopant. |
On the subject of discussion and evaluation |
| 8 |
mid-term exam |
|
| 9 |
Effect of temperature, Protonlamanın Effect, Effect of Moisture, Effect of Redox Mechanism, Effect of Surface Structure. |
On the subject of discussion and evaluation |
| 10 |
Conducting Polymers Mechanical, Thermal, Resolution, and Workability Properties. |
On the subject of discussion and evaluation |
| 11 |
Conductor Composite and Copolymer Synthesis.
|
On the subject of discussion and evaluation |
| 12 |
Applications of Conducting Polymers, rechargeable batteries, sensor Productions, pH sensors, gas sensors, biosensors.
|
On the subject of discussion and evaluation |
| 13 |
Electronic equipment, Ion Selective Electrode Productions.
|
On the subject of discussion and evaluation |
| 14 |
Corrosion Rate Reduction, electrorheological (ER) studies.
|
On the subject of discussion and evaluation |
| 15 |
Corrosion Rate Reduction, electrorheological (ER) studies.
|
On the subject of discussion and evaluation |
| 16 |
final exam |
|
| Recommend Course Book / Supplementary Book/Reading |
| 1 |
1. J. M. G. Cowie, Polymers: Chemistry and Physics, of Modern Materials, Chapman and Hall, New York, 1991. 2. W. E. Gul, New Concept in Polymer Science, Structure and Properties of Conducting Polymer Composites, Utrech, The Netherlands, 1996. 3. D. B. Co |
| Required Course instruments and materials |
| projection |
