Syllabus
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1. Molecular materials. (basic properties, chemical bond and structure) Organic semiconductors (low-molecular and high-molecular, conjugation, intermolecular interactions). *
2. Electron structure. (neutral and polar electron states, charge carriers, solitons, polarons, absorption, luminiscence, phosphorescence, charge transfering startes). *
3. Charge transport in molecular semiconductors. (transport states, elektron, ion and proton conductivity, mechanisms of charge transport). *
4. Photogeneration of charge carriers. (excited states, excitons, exciton transport, energy transfer, excimers, generation of couple states, dissociation of ion couples, Onsager model). *
5. Lokalizované stavy. types of traps, capture processes, termostimulated processes, space charge limited currents). *
6. Photochromy of organic materials. (dynamics of excited states, conformation changes of molecules in excited states, transient absorption, memory and switch effects). *
7. Synthtic metals. (donor-acceptor interactions, complexes with charge transfer, radical salts, electrical conductivity, paramagnetism, phase transitions). *
8. Preparation technology of thin organic films. (Langmuir-Blodgett films, electropolymeration, vacuum sublimation, plasmatic polymeration, adsorption, spin coating). *
9. Molecular elektronic elements. (solitons as information carrier, dynamics of soliton transfer, molecular transistors, luminiscent diodes, holography and memories, current modulators). *
10. Electronic molecular processes for macroscopic electronic elements. (electrochemical processes, Schottky barrier, charge carrier injection, non-linear optics). *
11. Stability of organic materials. (photodegradation, thermal degradation, stabilizers, basics of chemical reactivity). *
12. Experimental methods for investigation of molecular elektronic processes.
Annotation
Basics of molecular physics, electrically and optically active molecular materials. Basics of molecular electronic elements.