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knowledge of semiconductor physics, lasers, and optics. Ideally, experience in the field of transmission electron microscopy. High level of self-motivation, as well as enjoyment and skill in practical work
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workflow for the imaging of Mg-LPSO alloys via X-ray nanotomography followed by higher resolution imaging of the identified regions of interest using transmission electron microscopy and atom probe
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sciences (M.Sc.) or an equivalent qualification. Previous experience in virology, molecular and cell biology, or microscopy would be welcome. WHAT WE OFFER: The LIV Graduate School is an interdisciplinary
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-cell tracking using advanced MRI techniques. As part of the Experimental Magnetic Resonance Group, you will explore immune cell behavior in vivo using time-lapse MRI, intravital microscopy, and
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properties of individual molecules doped into state-of-the-art materials used in OLEDs. The project will apply single-molecule microscopy and spectroscopy techniques to obtain information about the degree
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will apply single-molecule microscopy and spectroscopy techniques to obtain information about the degree of order of OLED materials at the nanoscale in thin films, as well as how such order / disorder
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Scattering Microscopy (NSM) – a novel label-free single-molecule optical microscopy method. NSM is posed to overcome current limitations today‘s microscopy, opening unprecedented avenues for exploring life
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recent project is to characterize the function and genetic control of root anatomical and architectural traits in barley to enhance drought and soil compaction stress tolerance. Your tasks: Microscopy
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) software for topology-informed biomedical image analysis and large foundation models. You will be responsible for Develop new machine learning algorithms for microscopy image analysis problems (2D/3D/4D/5D
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functionalized quantum dots and single-molecule fluorescence microscopy Develop novel microfluidic techniques for molecular separation using artificial intelligence Collaborate closely with international research