Forschung AK Lindén
Synthese von mesoporösen Materialien mit kontrollierter Morphologie
Mesoporous materials, i.e. materials with a pore dimension in the range of 2 – 50 nm, have a range of promising application prospects, ranging from biomedical applications to catalysis. However, in most cases… [read more]
Hybride Hydrogele für Tissue Engineering
Synthetic scaffolds mimicking the optimum biological environment are instrumental in the development of stem cell-based therapies. Here, biodegradability, toxicity, pore size, surface morphology, and scaffold elasticity are ... [read more]
Nukleations- und Wachstumsprozesse
Nucleation and growth processes play an immense role in many practical applications, but are difficult to study. This is especially true for the early stages of particle formation, which could proceed through the formation of ... [read more]
Energie- relevante Materialien
One of the main focus areas of the faculty of natural sciences is energy storage. We focus our current research in this area towards manganese oxide materials for batteries and supercapacitors, and more specifically ... [read more]
Funktionale, mesoporöse Silikananopartikel für Bildgebung und Medikamententransport
Mesoporous silica nanoparticles are highly promising drug carriers due to their inherent biodegradability, low toxicity, high surface area and pore volumes. Furthermore, different imaging modalities can be… [read more]
Publikationen
