Joint Projects

• SFB 951: Hybrid Inorganic/Organic Systems for Opto-Electronics
  
  • Teilprojekt A6: Nanowires grown from photocatalytically active organic nanotubular templates

• SFB 658: Elementary Processes in Molecular Switches at Surfaces
  
  • Teilprojekt A3: Controlled electron transport through single molecules

• SFB 765: Multivalency as a Chemical Organization and Action Principle: New Architectures, Functions and Applications
  
  • Teilprojekt C3: Binding forces in metallo-supramolecular complexes

• Strategic Japanese-German Cooperative Program: Nanoelectronics with giant conjugated macrocycles
  (DFG-Project in cooperation with Max Planck Institute for Polymer Research and Tokyo Metropolitan University)

• Interfaces between conjugated organic molecules and metal surfaces: Correlating adsorption-induced distortion, electronic structure and interface dipole
  (DFG-Project in cooperation with University Tübingen)

• Großflächige elektrisch leitfähige Graphenoid-Lagen als optisch transparente Beschichtungsmaterialien
  (BMBF-Verbundprojekt mit MPI für Polymerforschung Mainz und Universität Bielefeld)

• Marie Curie Network for Initial Training (ITN) within the 7th Framework Programme of the EU "Graphene-Organic Hybrid Architectures for Organic Electronics: A Multisite Training Action - GENIUS" (with University of Cambridge, University College London, MPI for Polymer Research, BASF AG, Université de Mons, ISIS Strasbourg, CNR Bologna)

• International Graduate Research Training Group 1524 Self-Assembled Soft-Matter Nanostructures at Interfaces

• International Max Planck Research School on Biomimetic Systems