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Program
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Field
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devices using broadband spectroscopy and electron microscopy The position offers a stimulating interdisciplinary environment and opportunities to develop advanced skills in numerical optimization
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of mammalian gametes or embryos Extensive experience with in vitro fertilization experiments Molecular biology techniques (RNA isolation from limited cells, RT-qPCR) Fluorescence microscopy or confocal laser
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and cryo-electron microscopy techniques will be employed, as well as the investigation of the composition of viral factories by mass spectrometry. We hope that with these approaches, we will understand
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microscopy, nanosciences, biosensing, and nanobiotechnologies. Jerome Wenger’s group has acquired a wide expertise in the nanoscale control of light fields in plasmonic nanostructures and its application
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analysis / computer vision, ideally on microscopy or time-lapse data Experience in at least one of: tracking / time-series analysis, probabilistic modelling / uncertainty, real-time or streaming pipelines
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about interdisciplinary research at the interface of chemistry and biology. Basic experience in DNA/RNA handling, fluorescence microscopy, or photochemistry is advantageous but not required. You are
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candidate will have proven skills in structural biology and a working understanding of cryo-electron microscopy. They will be self-motivated in designing and executing experiments, with a proven track record
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. Learning and application of advanced microscopy and intravital imaging techniques. The maintenance, use and teaching of research associated equipment (e.g. high-end microscopes). To assist team members in
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educational technologies, such as virtual histology tools (digital microscopy, virtual slides, augmented/virtual reality technologies, 3D histological experiences) and online resources to provide engaging
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and imaging capabilities, and on applying THz (emission) microscopy to study 2D materials and 2D heterostructures. The microscope will use femtosecond lasers to generate and detect terahertz pulses