Titel: Physics and Applications of Atomically-Thin Nanomaterials
Physik und Anwendungen von Atomar Dünnen Nanomaterialien
Art: ProSeminar
Semesterwochenstunden: 2
Angeboten im Semester: Wintersemester 2020/21
Inhalt:
Atomically-thin 2D materials are a new and continuously expanding class of solid-state systems for realizing future artificial systems with unique properties that do not exist in the 3D-based counterparts.
This seminar will provide a summary of the state-of-the-art of 2D materials and their fundamental properties by reviewing the exotic physics, the main fabrication methods and the characterization techniques for next generation atomically-thin devices. A particular focus will be given to the fascinating electronic, vibronic and optical features and to the new growth strategies and emergent nanofabrication approaches. Specific examples include magic-angle graphene, Moiré and spin-valley physics and van der Waals epitaxy.
The ultimate scope of the seminar is to acquaint the students with one of the most dynamic field in current solid-state physics.
Examples topics will include:
- van der Waals epitaxy of atomically thin materials
- pick and place nanofabrication of 2D heterostructures
- nanoanalytics of 2D materials
- Moiré physics
- spin and valley physics
- interlayer excitons
- post-CMOS transistors
- nanolasers with 2D gain medium
- Dozent: Jonathan Finley
- Dozent: Eugenio Zallo