Sort by
Refine Your Search
-
tissue samples using a method called DNA-microscopy. This technique aims to allow the reconstruction of the relative spatial positions of biomolecules using exclusively DNA-sequencing information based
-
of food ingredients. The research is focused on structural and physical aspects of food ingredients and food matrices using high resolution microscopy and image analysis. We are seeking a highly motivated
-
the development and application of advanced optical imaging and microscopy methods. The Hillman Lab brings together researchers from physics, engineering, and biology in a collaborative and intellectually open
-
. The successful candidate will use biochemical, biophysical, and optical approaches, including advanced fluorescence microscopy (confocal, TIRF, single-molecule imaging), to dissect the molecular machinery
-
instrumentation (single-cell mass spectrometry, high-resolution microscopy, next-generation sequencing) and artificial intelligence-guided computational workflows. Job Description Develop computational image
-
uses super-resolution microscopy and electron-microscopy to investigate rapid synaptic organelle dynamics during neurotransmission. The Fellow will design and conduct experiments aimed at identifying
-
in biofilm biology and/or quantitative microscopy are particularly encouraged to apply. We are seeking highly motivated, creative scientists who are willing to take intellectual risks to shape
-
, preferably using yeast Genome engineering / synthetic biology, yeast and/or mammalian Cell biology, microscopy, and biochemical approaches Functional genomics and computational data analysis, including AI
-
, optical microscopy, and many other technologies to fabricate devices and monitor cell behavior. We are interested in continuing the development of these next-generation MPS/OoC devices and developing new
-
positions in 2026 focussing on nanoparticle catalysis using advanced operando electron microscopy. If you thrive in a collaborative, cutting-edge setting and want to make a global impact, we want to hear from