New Materials: Preparation, Properties, and Applications 1200-2SPEC62M

General characteristics of polymers (conjugated) and methods for their preparation; doping and solubility of the polymer blends and composites. Molecular weight of polymers and methods of determining the mechanical properties of polymers. Conductivity and optical properties in the UV-VIS range. Characterization of conjugated polymers with physicochemical methods. Conducting polymer nanomaterials: preparation and properties. Applications of conjugated polymers.
Novel carbon nanostructures (fullerenes, nanotubes, encapsulates and graphene); Discovery and production techniques: high-temperature (laser and carbon arc), combustion synthesis, catalytic deposition (CVD), chemical funcionalization, etc. Characterization of carbon nanostructures: structure and morphology, functionalization, physical, chemical, mechanical and electronic properties. Current prototype and perspective applications of carbon nanostructures: pharmacology, medicin, materials science, photooptics, catalysis, tribology, nanoelectronics, microscopy, environmental protection, etc.

Type of course

optional courses

Mode

Blended learning

Prerequisites (description)

Lecture is designed for the master degree students which obtained the bachelor degree in Physical Chemistry, Inorganic and Analytical Chemistry, Organic Chemistry . Lecture is divided in two parts and focused on conducting polymers and carbon nanostructures. After completing the lecture student should known about methods of formation, properties and practical application of conducting polymers and carbon nanostructures - fullerenes, nanotubes, encapsulates, graphene.

Course coordinators

Michał Bystrzejewski
Maciej Mazur

Learning outcomes

After completing the lecture student:
● possesses the basic knowledge in nanotechnlogy , in particular, the knowledge of the novel carbon nanostructures,
● possesses the knowledge on synthesis, properties and application of conducting polymers
● knows how to critically discuss the new trends in nanotechnology of carbon and conducting polymer materials,
● knows how to independently look for and use the literature connected with different aspects of material science.

Assessment criteria

Written exam covering the entire material.

Practical placement

not applicable

Bibliography

1. Łużny, W., Wstęp do nauki o polimerach. AGH Uczelniane Wydawnictwa Naukowo-Dydaktyczne: 1999.
2. Nicholson, J. W.; Brzeziński, J., Chemia polimerów. Wydawnictwa Naukowo-Techniczne: 1996.
3. Pielichowski, J.; Puszyński, A., Chemia polimerów. Wydaw. Naukowo-Techniczne TEZA: 2004.
4. Wallace, G. G.; Teasdale, P. R.; Spinks, G. M.; Kane-Maguire, L. A. P., Conductive Electroactive Polymers: Intelligent Polymer Systems, Third Edition. CRC Press: 2008.
5. Inzelt, G., Conducting Polymers: A New Era in Electrochemistry. Springer: 2012.
6. Przyłuski, J., Conducting polymers : Electrochemistry. Sci-Tech: Vaduz, 1991 .
7. Cosnier, S.; Karyakin, A., Electropolymerization: Concepts, Materials and Applications. Wiley: 2011.
8. Proń, A.; Rannou, P., Processible conjugated polymers: from organic semiconductors to organic metals and superconductors. Progress in Polymer Science 2002, 27 (1), 135-190.
9. Chujo, Y., Conjugated Polymer Synthesis: Methods and Reactions. Wiley: 2013.
10. Osakada, K., Organometallic Reactions and Polymerization. Springer: 2014.
11. Kar, P., Doping in Conjugated Polymers. Wiley: 2013.
12. Gul, V. E., Structure and Properties of Conducting Polymer Composites. Taylor & Francis: 1996.
13. Hillenkamp, F.; Peter-Katalinic, J., MALDI MS: A Practical Guide to Instrumentation, Methods and Applications. Wiley: 2013.
14. Striegel, A.; Yau, W. W.; Kirkland, J. J.; Bly, D. D., Modern Size-Exclusion Liquid Chromatography: Practice of Gel Permeation and Gel Filtration Chromatography. Wiley: 2009.
15. Eftekhari, A., Nanostructured Conductive Polymers. Wiley: 2011.
16. Zerbi, G.; Siesler, H. W.; Noda, I.; Tasumi, M.; Krimm, S., Modern Polymer Spectroscopy. Wiley: 2008.
17. Sawyer, L.; Grubb, D.; Meyers, G. F., Polymer Microscopy. Springer: 2008.
18. Vancso, G. J.; Schönherr, H., Scanning Force Microscopy of Polymers. Springer: 2010.
19. Bowen, W. R.; Hilal, N., Atomic Force Microscopy in Process Engineering: An Introduction to AFM for Improved Processes and Products. Elsevier Science: 2009.
20. Meixiang Wan, Conducting Polymers with Micro or Nanometer Structure. Springer Science & Business Media: 2009.
21. Terje A. Skotheim, John Reynolds, Handbook of Conducting Polymers, 2 Volume Set. CRC Press: 2007.
22. Original reviews and research papers concerning conducting polymers – references are given during lectures.
23. A. Huczko, „Nanorurki Węglowe. Czarne Diamenty XXI wieku”, BEL Studio, Warszawa, 2004.
24. A. Huczko, M. Bystrzejewski, „Fulereny. 20 lat później”, Wyd. UW, Warszawa, 2006.
25. R.W. Kelsall i inn., „Nanotechnologie”, PWN, Warszawa, 2008.

Notes

Term 2023L:

Consultations:
Thursdays, 9.00 am to 10.00 am
Maciej Mazur: https://meet.google.com/kno-hzun-gzq
Michał Bystrzejewski: https://meet.google.com/mxr-oqyp-ryb

Additional information

Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system:

Description of 1200-2SPEC62M in USOSweb