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between synthetic cells. With a lot of room for scientific creativity and collaborations, you will also further extend the capabilities of bottom-up synthetic biology by improving our methods to generate
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to steer the multicellular self-organization, and to generate tissues whose structures and patterning can be designed at will. In this project at the interface of physics and biology, you will use
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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
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testing. Organoids are transforming both fundamental and applied biology, as well as medical research. However, technical hurdles have limited direct study of the underlying cellular dynamics, which
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Do you want to discover how multi-protein assemblies are produced without error? The aim of this project is to reveal this vital cellular process at the single-molecule level. Our research group has been at the vanguard of studying chaperone-protein interactions using optical tweezers, which...
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Do you want to discover how multi-protein assemblies are produced without error? The aim of this project is to reveal this vital cellular process at the single-molecule level. Our research group has been at the vanguard of studying chaperone-protein interactions using optical tweezers, which...
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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 of the most complex cellular processes that are vital to life. Our research group has been at the...
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Python. Formal requirements: You have a Bachelors degree in physics, mathematics, computer science, or quantitative biology, and are enrolled in a Masters program in one of these areas. The internship must
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The Hybrid Nanosystems group at NWO-Institute AMOLF is looking for a postdoc for investigating light-induced processes in situ inside the transmission electron microscope (TEM). Modern TEMs now can routinely visualize materials all the way down to the atomic level, revealing unexpected insights...
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Did you know high-energy electrons can serve as efficient sources of optical excitation of matter? Our group has developed cathodoluminescence (CL) microscopy, in which we use 1-30 keV electrons in a scanning electron microscope (SEM) to excite nanomaterials. The oscillating electric field...