-
across the membranes. The modular “LEGO” approach means that it would open a general route for generating bespoke artificial receptors for bottom-up synthetic biology in the future. In order to answer
-
fields, with many potential applications in engineering and medicine. In this project, you will study the spatial control of biochemical signaling in intestinal organoids and other 2D cell cultures
-
. The need for such a technology comes from the the extreme miniaturisation of micro-electronics, which places extreme demands not just on nanofabrication, but also on inspection methods that visualize
-
highly supportive and social atmosphere that extends to the other research groups at the AMOLF institute, which is housed in a modern building in the east of Amsterdam. You will be part of a collaboration
-
highly supportive and social atmosphere that extends to the other research groups at the AMOLF institute, which is housed in a modern building in the east of Amsterdam. You will be part of a collaboration
-
opportunity lies in the use of mammary gland organoids, which grow outside the body, and can hence be imaged with high spatiotemporal resolution. In this cross-disciplinary (physics & biology) project, you will
-
In this project you will develop next-generation cell tracking methods for organoids based on advanced AI approaches and novel biophysics concepts, in order to elucidate the remarkable self-renewal
-
Are you intrigued by the forefront of biophysics technology – and integration with genome-wide data and AI methods? Thanks to groundbreaking advancements, we can now show the internal dynamics
-
highly advanced optical nanolithography. Hand in hand, optical methods for metrology and inspection must keep improving in order to meet the demands of quality control at ever decreasing dimensions. In
-
to contribute to new technologies that realize radical improvements in the energy efficiency of information and communication technology? As part of the Dutch consortium NL-ECO on energy-efficient computing