After successful completion of the course, students are able to explain the special properties of 2D Materials and their heterostruktures, can read advanced literature on the subject, and do further research works in this topic. They know the most important 2D materials (graphene, hexagonal boron-nitride, transition-metal-dichalcogenides) and concepts such as twisttronics or Van der Waals heterostructures.
Selected 2D materials (graphene, hBN, TMDs)
Band structure and electronic properties
Interaction with light and external fields
Characterization of 2D materials: Raman spectroscopy
Twisted 2D structures and moire effects
Many-body effects and excitons
Lecture, discussion, inverted classroom
Oral exam
quantum theory, solid state physics