Our focus is on the application of label-free fluid and particle manipulation to biomedical sciences for developing novel characterization, diagnostic, and treatment platform technologies. Our special interest is in applying piezo-acoustics and automated microfluidic analyses to enable feedback control systems for pre-clinical and clinical life science tools, in particular to enable a quantitative understanding of organoids and tumors in complex micro-environments.
Group leader: Rune Barnkob (firstname.lastname@example.org)
We implement holographic imaging and microfluidics for high-throughput biomedical applications with minimum sample preparation.
Group Leader: Matthias Ugele (email@example.com)
The processing and sensor-based, dynamic analysis of live tissues is essential to meet clinical demands both for in-vitro settings (e.g. for diagnostics on explanted human samples) and active implanted devices in vivo. Ideally, this means immediate translation of biomedical engineering developments to improve therapies.
Group Leader: Martin Brischwein (firstname.lastname@example.org)
Our research focus is on the integration of biosensors, single cell handling, microfluidics and immunological targeting in Lab-on-a-chip based platform technologies for single cell function testing.
Group Leader: Mathias Reisbeck (email@example.com)