Our group develops compartmentalization strategies to construct micro and nanocapsules which can be applied in the areas of nanomedicine and artificial cell research. We design smart delivery vehicles that for example cross the blood brain barrier or are used in cancer therapy. We use nanoparticles as scaffolds for vaccine development. We construct capsules with life-like properties, such as metabolism, organelle-mimetic behavior and cell growth and motility. In our research we combine techniques from protein engineering, polymer chemistry and bioconjugation approaches to create particles with bioactive properties.
The objective of our research is to construct smart compartments with life-like features. Our activities can be divided according to two main lines of research: nanomedicine and artificial cells and organelles.