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the development and application of advanced optical imaging and microscopy methods. The Hillman Lab brings together researchers from physics, engineering, and biology in a collaborative and intellectually open
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microscopy and electron microprobe analysis. This work aims to identify mineralogical and chemical signatures associated with the earliest stages of planetesimal differentiation. The researcher will also be
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interdisciplinary approaches that combine advanced microscopy (confocal, electron, in vivo multi-photon), viral vectors, protein engineering, mouse models, and multi-omics analyses. For further information on the lab
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Missouri University of Science and Technology | Rolla, Missouri | United States | about 14 hours ago
Laboratory, approved for work with select agents and toxins. MU also houses multiple core facilities, such as Electron Microscopy Core Facility, Charles W. Gehrke Proteomics Center, Metabolomics Center
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chemistry, with access to advanced infrastructure such as NMR, mass spectrometry, electron microscopy, and chromatographic techniques. Research is conducted in close collaboration with national and
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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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monitoring relevant parameters, as well as undertaking experiments with e-waste decay; study foraminifer tests with microscopy (e.g. SEM, LM); collaborate with partners in the USA and within the LRA-AMS
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, and materials chemistry, with access to advanced infrastructure such as NMR, mass spectrometry, electron microscopy, and chromatographic techniques. Research is conducted in close collaboration with
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areas of nanoscience and nanotechnology. Job title: Postodoctoral Researcher Position in (Scanning) Transmission Electron Microscopy of Catalytic Materials for Green Hydrogen and Energy Applications
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support machine learning applications for analyzing electron microscopy images of nanoalloys. Model interactions between nanoalloys and carbon substrates to reflect experimental conditions, incorporating