1. Single-Protein Junctions

    In combination with solid-state peptide synthesis, we are designing several helical peptides structures to study chiral charge transport in Biology.

  2. Chiral Charge Transport in Biological Motifs

    In combination with point-site mutagenesis protocols, we are designing novel single-protein contacts with controlled orientation to map the charge transport landscape on individual metalloproteins and fine-control the protein-electrode coupling.

  3. Chemistry at Electrified Interfaces

    Mimicking enzymatic mechanisms, we are studying the effects of force fields on chemical reaction at electrified solid/liquid interfaces.

  4. Single-Molecule Electronics

    In combination with organic synthesis, we are designing new possibilities to efficiently wire (Bio)molecules into metal and semiconducting electrodes.