Biomedical Engineering and Neuroinformatics
The combination of life sciences and engineering principles continues to create intriguing perspectives for basic research, healthcare, and the enhancement of daily life.
“Interfacing biology with electronics at the nanometer scale will enable earlier diagnosis of diseases, such as cancer.”Prof. János Vörös, Institute for Biomedical Engineering
It will boost our ability to study, control, support, and repair organisms from single cells to the human body. Electrical engineering and information technology are at the heart of this effort.
Prof. Morteza Aramesh: Single Molecule and Single Cell Biophysics
Adj. Prof. Tobi Delbrück: external pageNeuromorphic event-based sensory processingcall_made
Prof. Benjamin F. Grewe: external pageSystems and Circuits Neuroinformaticscall_made
Prof. Richard Hahnloser: external pageSystems neurosciencecall_made
Prof. Giacomo Indiveri: external pageNeuromorphic Cognitive Systemscall_made
Prof. Sebastian Kozerke: Biomedical Imaging
Prof. Valerio Mante: external pageNeural Computation and Cognitioncall_made
Prof. Klaas P. Prüssmann: Bioimaging
Prof. Daniel Razansky: Biomedical Imaging
Prof. Marco Stampanoni: external pageX-ray imagingcall_made
Prof. Klaas Enno Stephan: Translational Neuromodelling and Computational Psychiatry
Prof. János Vörös: Biosensors and bioelectronics
Prof. Mehmet Yanik: external pageNeurotechnologycall_made
Adj. Prof. Tomaso Zambelli: Biosensors and bioelectronics