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Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Mass spectrometry imaging (MSI) enables spatial characterization
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requires detailed imaging, beyond what is currently possible in humans in vivo. In this NWO-funded Vici project, we will leverage Ultra-High Field MRI (7T) with recent advances in MRI hardware, acquisition
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to develop a hyperspectral DUV imaging system for applications in microscopy in the context of chiral light-matter interactions at the nanoscale as part of our team at the VU Amsterdam (matzlab.com
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microscope based on this photoacoustics concept. Working as part of a small team of researchers, you get to design and develop the imaging system, and combine it with the ultrafast photoacoustics system
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the context of chiral light-matter interactions at the nanoscale as part of our team at the VU Amsterdam (matzlab.com ). Your project combines concepts from optical design, holographic imaging, computational
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, multi‑dimensional imaging data and enable richer exploration of historical paintings in collaboration with the Van Gogh Museum. Information Paintings are examined to understand artistic processes, support
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human stem cell culture, organoids, molecular biology, imaging, or transcriptomic approaches is an advantage. Strong communication skills, including scientific writing and presentation in English, are
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to unravel the complexity of multimineral salt crystallization using cutting-edge experimental methods combined with advanced 3D imaging. Your research will provide fundamental insights into how multiple ions
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to identify multiple diseases using one blood sample or medical image. These tests can find diseases early, before symptoms develop. However, they often produce false positives, indicating disease when none is
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model of the non-transparent structure. Using this approach, we aim to build a microscope that can look inside very complex materials without loss of image quality. Your role is to build flexible 3-D ray