The main directions of development of physical chemistry 1700-SDNSP-DPCh
This lecture course is mainly devoted to physical chemistry of molecules (macromolecules), their supramolecular aggregations and nanoobjects such as semiconductor nanocrystals, carbon nanotubes, carbon dots etc. Thus, it is in line with the scope of Journal of Physical Chemistry C but also embraces contributions typical of Journal of Physical Chemistry B and to a lesser extent - Journal of Physical Chemistry A
The course consists of five lectures (each lasting 3 hours):
Lecture 1
Electronic properties of conjugated molecules and macromolecules; experimental determination of their ionization potential (IP) and electron affinity by electrochemical (CV) and spectroscopic (UPS, IPES) methods; UV-vis-NIR, EPR and Raman spectroelectrochemistry of conjugated molecules and macromolecules.
Lecture2
Mono- and multilayers of conjugated molecules and macromolecules; STM and X-ray investigations of their supramolecular organization; electrical transport in mono- and multilayers.
Lecture 3
Photo- and electroluminescence of conjugated molecules (macromolecules); thermally activated delayed fluorescence; design and construction of organic light emitting diodes (OLEDs).
Lecture 4
Luminescent semiconductor nanocrystals – preparation, surface functionalization and application in biosciences; thermoelectric semiconductor nanocrystals, - preparation, surface functionalization, Mossbauer spectroscopy; Seebeck coefficient determination, application in thermoelectric devices.
Lectyre 5
Carbon dots, carbon nanotubes, graphene; electronic structure; Raman and UV-vis-NIR spectroscopy; functionalization and selected applications.
Five lectures, 3 hours each in the on-line configuration
Classical lectures. The transparences used during the lectures in the pdf form will be distributed electronically among participants.
One absence would be authorized.
Koordynatorzy przedmiotu
Efekty kształcenia
After completing this course PhD students should be able to clearly identify relationships between molecular structure of conjugated molecules (macromolecules), their capability of self-organizing into ordered supramolecular aggregations and their redox, spectroscopic and electrical properties. This should facilitate the design (or appropriate selection) of molecules, macromolecules or nanoobjects exhibiting desired and tunable properties for a given application.
Kryteria oceniania
Short oral examination (15 minutes) in English. Selected problems related to one of the five presentd lectures (10 min.); presentation of the results of PhD student’s master thesis (5 min.)
Students will be asked to discuss selected problems related to one of the five presented lectures (10 min.). In addition they will be asked to present the most important results of results master thesis research (5 min.). The latter is considered as a test of a given student’s capability of principal results selection and their short and concise presentation in a clear manner.
The grade will strictly correspond to the quality of the PhD student’s explanation of the scientific problems raised by the lecturer. The quality of the master the presentation. The quality of the master thesis description will also be taken into consideration.
Literatura
Since very diversified physical chemistry problems will be presented, it is not possible to find an appropriate text book for this lecture. For this reason the used transparences will be very detailed.
Więcej informacji
Dodatkowe informacje (np. o kalendarzu rejestracji, prowadzących zajęcia, lokalizacji i terminach zajęć) mogą być dostępne w serwisie USOSweb: