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Last update: doc. RNDr. Vojtěch Kubíček, Ph.D. (11.01.2012)
electrical and optical properties, Magnetic properties of nanomaterials, Methods of the characterization of nanomaterials, Selected applications of nanomaterials. The course is designed for Master and PhD students. |
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Last update: doc. RNDr. Vojtěch Kubíček, Ph.D. (12.10.2013)
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Last update: doc. RNDr. Vojtěch Kubíček, Ph.D. (28.11.2011)
Examination is oral and follows the syllabus. |
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Last update: doc. RNDr. Vojtěch Kubíček, Ph.D. (12.10.2013)
1.1 Structure of classic crystals and nanocrystals, fotonic crystals, nanowires, nanodesky, Q-crystals 1.2 Electronic structure of macroscopic crystals and nanocrystals 2. Preparation of nanocrystals 2.1 Formation of nanoparticles 2.2. Particle synthesis by chemical route 2.3 Sol-gel methods, supramolecular templates, solvotermal recrystalisation 2.4 Self-assembled nanostructures, LB films 2.5 Thin layers: CVD, PVD, MBE
3. Examples of nanomaterials 3.1 Magnetic nanoparticles and nanocomposites 3.2. Semiconductor nanoparticles 3.3. Zeolites, molecular sieves 3.4. Carbon nanomaterials 3.5. Oxidic nanomaterials
4. Methods of the characterization of nanomaterials 4.1 Electron microscopy: SEM, TEM 4.2 Microscopy using scanning probe: STM, AFM, SNOM 4.3 Study of the porous structure: adsorption 4.4 Analyse of surface: XPS, AES 5. Selected applications of nanomaterials 5.1 Nanoelectronics, electrochromic a autoemission displays 5.2 Conversion and accumulation of energy: solar cells, battery, supercondensators, fuel cells, hydrogen industry 5.3 Self-cleaning and antibacterial materials 5.4 Nanomanipulation, nanomotors 5.5 Nanofibres, nanocomposites 5.6 Bioaplication, nanomedicine, sensors, health risks of nanomaterials
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