Basics in Namomaterials and Nanotechnology 1 - Mechanical and Optical Properties:
Lectures Prof. Felfer:
General introduction to Nanotechnology:
properties of Nanomaterials (magnetic, mechanical . . . ):
production of nanomaterials: Sol-Gel technique, severe plastic deformation
mechanical properties of materials and size-effects in mechanics
characterization of Nanomaterials, Transmission Electron Microscopy, Focused Ion Beam, Scanning Tunneling Microscope, Atom Probe Microscopy
Lectures Prof. Vogel:
general introduction of nanoparticulate systems and their applications
introduction to size-dependent physical properties of dielectric, metallic and semiconducting nanoparticles: light scattering, plasmonic properties, size-dependent emission properties and magnetism
collective effects and properties of nanoparticle thin films: structural color and tailored emission properties Basics in Nanomaterials and Nanotechnology 2 - Nano Characterization
Part 1:
Basics of electron microscopy
Electron matter interaction
Electron diffraction
Imaging (BF, DF, HR(S)TEM)
Examples
Part 2:
surface analysis
AFM/STM
XPS/UPS
Tof-SIMS/LEIS
XRD and diffraction methods
SFG and optical methods
Examples