Microsystems | Nanotechnology
Our research into next-generation solar cells, new types of batteries, catalytically active materials for binding CO2 and converting solar energy into chemical or electrical energy, and new types of quantum materials for energy-efficient information and communication technology is based on decades of nanotechnology know-how in multilayer thin-film systems and nanostructuring methods. With our broad, extremely powerful, AI-supported analytical and measurement know-how, we get to the bottom of physical and chemical processes in order to better understand old and new materials and to develop them further in a targeted manner.
See also:
Tomography
New materials for data storage
Spintronics, spin structures, nanomagnetic systems
Residual stress, microstructure and profile analysis of thin films and layer lattice semiconductors
Protein Crystallography
Magnetisation measurements using squid
