We explore the binding between electron-rich and planar donor molecules, for example cyclic trinuclear Au(I) complexes, and acceptors with potential interest for sensing applications, as well as the incorporation of guest molecules in macrocycles, such as calixarenes and conjugated nanohoops.
Selected articles by the group:
We investigate novel materials and concepts for small molecule organic semiconductors and emitters. Using dibenzopentalenes, we modulate their orbital energies and crystal packing by structural engineering to make them attractive ambipolar materials for n- and p-type organic field-effect transistors. For donor-acceptor-type emitters, we explored the effect of spiroconjugation on the optical properties of the compounds by incorporating spiro centers within the donor, acceptor or in between donor and acceptor unit.
Selected articles by the group:
Our research on conjugated nanohoops is funded by the DFG and the ERC (Consolidator Grant NanOBatt).