Conducting polymers - sythesis. properties and application
General data
Course ID: | 1200-3IN`PP |
Erasmus code / ISCED: |
13.303
|
Course title: | Conducting polymers - sythesis. properties and application |
Name in Polish: | Polimery przewodzące – synteza, właściwości i zastosowania |
Organizational unit: | Faculty of Chemistry |
Course groups: | |
ECTS credit allocation (and other scores): |
(not available)
|
Language: | Polish |
Type of course: | optional courses |
Prerequisites (description): | Lecture is designed for the bacheler student of III year. Lecture is focused on synthesis, properties, application of conducting polymers and conducting polymer nanostructures. After completing the lecture student should known about methods of formation, properties and practical application of conducting polymers. |
Short description: |
Lecture is divided in two parts. In the first part concerning conducting polymers the methods of chemical and electrochemical formation, properties and methods of their determination and practical application of conducting polymers in electronic, analytical chemistry, cells, electrocatalysis will be described. The second part will be dedicated to the formation, properties, application of conducting polymer nanostructures and nano- hybride systems |
Full description: |
Types of conducting polymers, mechanisms of conductivity, doping methods. Methods of synthesis and mechanisms of polymerization. Application of spectroscopic and electrochemical methods in investigations of polymerization and properties of conducting polymers. Determination of structure and morphology by using microscopic methods. Applications of conducting polymers. Conducting polymer nanostructures: synthesis, properties and applications. Hybrid systems ( metalic, semiconductor nanoparticles-biomaterials ) synthesis, properties. |
Bibliography: |
1 Handbook of Conducting Polymers. Second Edition, ed by T.A. Skotheim, R.L Elsenbaumer, J.R.Reynolds 1998, NY, Marcel Deker 2. Handbook of Conducting Polymers Third Edition, ed by T.A.Skotheim, J.R Reynolds 2007, NY, CRC 3. Advances in Synthetic Metals. Twenty Years of Progress in Science and Technology. Ed. by P.Bernier, S.Lefrant, G.Bidan Amsterdam, Elsevier, 1999 4. Oryginal reviews and research papers concerning conducting polymers, polymers nanostructurs – references are given during lectures. |
Learning outcomes: |
After completing the lecture student: ● possesses the knowledge on synthesis, properties and application of conducting polymers ● possesses the basic knowledge in nanotechnlogy , in particular, the knowledge of the synthesis, properties of polymer and hybride nanostructures, ● knows how to critically discuss the new trends in application of hybride nanostructures ● knows how to independently look for and use the literature connected with different aspects of material science. |
Assessment methods and assessment criteria: |
Written final exam to assess student's perception of the subject |
Practical placement: |
it does not concern |
Copyright by University of Warsaw.