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Last update: KRIVKA (19.05.2006)
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Last update: KRIVKA/MFF.CUNI.CZ (11.04.2008)
Introduction to semiconducting structures based on organic compounds. |
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Last update: doc. RNDr. Ivo Křivka, CSc. (13.06.2019)
oral examination |
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Last update: doc. RNDr. Ivo Křivka, CSc. (10.05.2019)
[1] J.Simon: Molecular Semiconductors, Springer, Berlín, 1985
[2] M.Pope, C.E.Swenberg: Electronic Processes in Organic Crystals, Clarendon Press, Oxford, 1982
[3] J.A.Chilton, M.T.Goosey (redaktoři): Special Polymers for Electronic and Optoelectronics, Chapman, Hall,London, 1995
[4] H.Dörr, H.Bonas-Laurent: Photochromism, Elsevier, Amsterodam, 1990
[5] S.Nešpůrek: Organické materiály, v knize: J.Šesták, Z.Strnad, A.Tříska (redaktoři): Speciální technologie a materiály, Academia, Praha 1993
[6] V.Prosser a kolektiv.: Experimentální metody biofyziky, Academia, Praha, 1989
[7] A.R.Blythe, D. Bloor, Electrical Properties of Polymers, 2nd Edition, Cambridge University Press, Cambridge 2005 |
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Last update: KRIVKA/MFF.CUNI.CZ (11.04.2008)
přednáška |
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Last update: doc. RNDr. Ivo Křivka, CSc. (13.06.2019)
Oral examination. Requirements according to the syllabus in extent corresponding to the lecture. |
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Last update: KRIVKA (19.05.2006)
1. Inorganic and organic semiconducting material - basic differences.
2. Properties of organic materials.
3. Electron states in organic semiconductors, electron structure.
4. Optical excitations, excitons, transport of energy.
5. Conformation molecular changes in excited state, photochromic effect.
6. Nonlinear optical effects.
7. Generation and photogeneration of charge carriers.
8. Charge carrier injection and capture.
9. Charge carrier transport, solitons, polarons.
10. Electrical conductivity, charge carrier mobility.
11. Experimental techniques for characterization of organic semiconductors.
12. Special aplications of organic semiconductors, thin film transistors, photodetectors, electroluminiscent diodes, sensors. |