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and investigate functionalized giant lipid vesicles (GUVs) using microfabrication techniques. You will work in a lively and close-knit research group of about 8 PhD students and postdocs, which work
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from the semiconductor industry to reduce critical dimension and target size, drives metrology research to exploit the complex behaviour of light in structures at subwavelength scale. We aim to develop a
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the NWO research programme NanoXUV we will develop nanophotonic structures that convert infrared wavelengths to coherent structured light of very short wavelength, in the UV and even extreme ultraviolet
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focus on stimulating development of students in all professional aspects, as well as collaborations with other researchers at AMOLF and beyond. Moreover, we work closely together with international groups
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photons group (position 2), and are expected to collaborate with all involved partners. Resonant Nanophotonics group. The research activities in the Resonant Nanophotonics group at AMOLF (PI Femius
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or differentiation. This proposal addresses crucial fundamental questions, while the results will also impact our understanding of breast cancer. You will operate in lively and close-knit research group of about 15
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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
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of CL in semiconductor metrology and to develop practical workflows for CL tomography. The project will be carried out in close collaboration with the neighboring Advanced Research Center
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. Within the group as well as among the different groups at AMOLF, we have a strong focus on stimulating development of students in all professional aspects, as well as collaborations with other researchers
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journal clubs. We also regularly organize an international group labtour. Our group is part of AMOLFs Nanophotonics and Light Management in new Photovoltaic Materials research centers that are composed of 8