Research
High-Resolution Atomic Force Microscopy
><strong>
><strong>
- Tip engineering - Field Ion Microscopy meets Atomic Force Microscopy
- 3D Force Fields - From Imaging to Manipulation
- Molecules in Liquids - 3D Structure Analysis
><strong> - TERS - Tip-enhanced Raman Scattering
><span>
><strong>
><strong>
Principles of On-Surface Synthesis: Designing 2D Nano-Materials
><strong>
><strong>
- Ullmann coupling reactions
- Hierarchical reaction control
- Dissymmetric reaction activation
- Chirality of organic molecules
- Graphene Nanoribbons GNRs - Bottom-up Design
><strong> - Graphene Nanoflakes
- Organic topological insulators
><strong>
><strong>
Nanotribology - 'The Physics of Superlow Friction'
><strong>
><strong>
- Friction on phase transition materials
- Nanoparticle manipulation
- Temperature dependence of nanoscale friction
- Application of nanoscale concepts to macroscopic tribo-contacts
><strong>
><strong>
Energy Storage Interfaces
><strong>
- Nano-Ionics
- Ion conduction enhancement effects at interfaces
><strong>
Enabling Cryo-Technologies - 'Sub 4K Pulse Tube Cryocoolers'
><strong>