Öffnet in neuem Fenster Opens in a new window Öffnet externe Seite Opens an external site Öffnet externe Seite in neuem Fenster Opens an external site in a new window

Fine mechanics and optics

Expertise by research divisions

Fine mechanics and optics know how by research divisions

RD Scientific research & deveopment (materials, devices and processes)
D Data processing (logging, analysis and AI)
ILA Infrastructures, labs  & analytics (operation, access)
Fine mechanics and optics
Solar energy
Crystalline silicon solar cells RD D ILA
Thin-film solar cells (perovskite, CIGS, silicon) RD D ILA
Tandem solar cells (perovskite CIGS, perovskite silicon, silicon silicon) RD D ILA
Solar module technology RD D ILA
Building-integrated photovoltaics (BIPV)      
Chemical energy conversion and storage
Solar hydrogen production      
Conversion of carbon dioxide      
Battery systems (lithium, metal-sulphur) RD D ILA
Electrodes (metal oxides, silicon)      
Catalysts (metal oxides) RD D ILA
Quantum and Functional Materials
Control of spin-based phenomena (spintronics)      
Control of collective states (quantum magnets, supercond., ferroelectrics)      
Topological insulators      
Nanomagnetic systems      
Multiferroic materials      
Application of photons for research and development
Understanding and controlling how materials work RD D ILA
Chemical reactions at the atomic level RD D ILA
Phase transitions and switching processes RD D ILA
Optimising the conversion of light into energy RD D ILA
Optimisation of biochemical processes      
Scientific services and key components
Synchrotron beamlines and sample environments RD D ILA
Superconducting cavities and electron guns      
Precision diffraction gratings and x-ray optics RD    
Proton and gamma irradiation sources for radiation hardness tests RD D ILA


Fine mechanics and optics research examples