Lecture 1: introduction |
Lecture 2: how to observe nano-objects with STM and AFM |
Lecture 3: the STM as a tool to investigate the electronic properties of nano-objects |
Lecture 4: structure analysis by electron diffraction |
Lecture 5: electronic transport |
Lecture 6: spintronics |
Lecture 7: electron and photon spectroscopy |
Lecture 8: synchrotron radiation part 1 |
Lecture 9: synchrotron radiation part 2 |
Lecture 10: nano-magnetism part 1 |
Lecture 11: nano-magnetism part 2 |
Lecture 12a: semiconductor nanostructures part 1 |
Lecture 12b: semiconductor nanostructures part 2 |
Lecture 13: quantum transport part 1 |
Lecture 14: molecular electronics |
Lectures 12-14 slides-part-1 |
Lectures 12-14 slides-part-2 |