-
embedded in nanoscopic droplets of superfluid helium. Specific projects include, but are not limited to: 1) Time-resolved imaging of cation-molecule complex formation 2) Time-resolved stereodynamics
-
. Nature Physics20, 970 (2024)). You will also work on expanding our coherent imaging methodology to look at dynamics and phase switching in materials at the nanoscale (Johnson et al. Nature Physics19, 215
-
the neuronal system. You hold a PhD in Neuroscience, Neurobiology, Stem Cell Engineering, Biotechnology, or a related field. You have a solid background in histone modification and chromatin regulation, and
-
have the opportunity to develop your projects based on your existing experience and your own career goals. The project entails: -in vivo imaging of enteric neuronal activity, and immune responses
-
formation and changes occurring during processing and digestion. The starting date is November 1st 2025, or subject to mutual agreement. The research project To respond to some of the most critical societal