Measurements technics in nanotechnology 1100-2INZ22
I. Nanomaterials, nanostructures – growth technologies.
II. Bonds in solids. Crystal structure. Basics of diffraction. Structural studies: techniques using X-rays, neutron diffraction, electron microscopy (TEM, SEM), tunneling and atomic force microscopy, imaging of magnetic interactions.
III. Energy levels of quasiparticles in bulk crystals and nanomaterials. Charge transport in nanomaterials and their structures. Semiconductor devices and their electric characterization.
IV. Optical methods of characterizing nanomaterials: absorption, luminescence and Raman scattering.
IV. Sources of magnetic moments in nanomaterials and long-range coupling in magnetic nanomaterials and magnetic structures. Magnetic resonances: paramagnetic resonance, nuclear resonance, collective resonances.
Type of course
Mode
Course coordinators
Learning outcomes
The student understands the concepts of materials of different dimensions and knows the technologies for obtaining them. Knows the basic experimental techniques used to study the structure, composition, electrical, optical and magnetic properties of materials. Understands the physical foundations of these techniques.
Assessment criteria
The lecture ends with a written and oral exam.
The written exam consists of a test with open questions (max. 50 points).
The condition for taking the oral exam is to obtain 20 points from the written exam.
Bibliography
1. J. Singleton, Band Theory and Electronic Properties of Solids
2. M. Fox, Optical Properties of Solids
3. M. Dove, Structure and Dynamics
4. T. Ihn, Semiconductor nanostructures
5. Springer Handbook of Nanotechnology
6. S. Kawata, M. Ohtsu, M. Irie, Nano-optics
7. M. Grundmann, Nano-Optoelectronics,
8. L. Novotny, B. Hecht, Principles of Nano-Optics
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: