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omics platforms (e.g., fluorescence microscopy, mass spectrometry imaging (MSI), Raman systems) and will develop computational and statistical data analysis methods to improve data quality, information
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assays) and high-resolution imaging approaches and quantifications from both mouse and human brains; mouse brain regional dissections; western blotting; and experiments in various in vitro culture systems
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the Candidate has successfully defended PhD thesis) in chemical sciences or related fields; has solid knowledge in FCS (Fluorescent Correlation Spectroscopy) and/or quantitative imaging and experience at work in
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), Neutron Sciences Directorate at Oak Ridge National Laboratory (ORNL). As part of the team, you will carry out in-situ studies of droplet interface bilayers (DIBs) using fluorescence microscopy techniques
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to image and analyze the dynamics of individual chromosomes. Your work will involve high-resolution fluorescence microscopy in advanced microfluidic systems as well as adapted Hi-C protocols. Data handling
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skills in physics/optics, particularly in instrumental optics and physical optics - Knowledge in fluorescence microscopy and imaging of biological samples - Skills in optical alignment - Skills in control
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to develop a new generation of fluorescence microscopy methods aimed at overcoming current limitations in acquisition time for single-molecule imaging. The project explores original strategies for temporal
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(Raman, fluorescence), electron-based microscopy, X-ray-based imaging, diffraction and spectroscopy, micro-/millifluidic device design and operation, image/video analysis, bacteria cultivation and
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, with a strong interest or expertise in photophysics -knowledge of fluorescence microscopy -experience in single-molecule imaging, including data acquisition and analysis -familiarity with biological
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and carries out experiments using mouse and human brain material, cultured cells, high resolution fluorescence imaging and image analysis, biochemical, as well as molecular biology approaches. Performs