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techniques (e.g. NMR, IR, UV-vis spectroscopy, Mass spectrometry, and X-ray diffraction) necessary for characterizing new molecules and polymers. Experience with photochemistry (e.g. quantum yield analysis
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(EASL ) working group at the Cornell High Energy Synchrotron Source (CHESS ). The Cornell EASL group’s mission is to advance the study of cultural heritage objects using synchrotron x-ray techniques
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to apply. Examples of Work Performed: Manage and operate the Macromolecular X-ray Crystallography Core Facility, including day-to-day oversight of X-ray diffraction instrumentation, crystallization robotics
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to apply. Examples of Work Performed: Manage and operate the Macromolecular X-ray Crystallography Core Facility, including day-to-day oversight of X-ray diffraction instrumentation, crystallization robotics
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transmission electron microscopy (TEM), atomic force microscopy (AFM), and X-ray diffraction (XRD), etc. Prepare manuscripts, reports, and presentations for internal discussions and external publication
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is High-Throughput Automation, leveraging rapid manufacturing via Directed Energy Deposition (DED) coupled with a rapid characterisation pipeline that includes X-ray diffraction, thermal analysis
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laser/X-ray spectroscopy. Novel methods for characterizing, accessing, and manipulating amorphous materials and biological materials. Coherent diffraction imaging and its applications in free electron
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-ray fluorescence microscopy, x-ray absorption spectroscopy, and/or x-ray diffraction Strong record of accomplishment in cultural heritage research Interest and ability to work in a collaborative
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diffraction (XRD), scanning electron microscopy (SEM), X-ray computed tomography (XRCT) Expertise in designing and performing high-temperature and high-pressure in-situ experiments is advantageous. Fluency in
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diffraction study. This research will utilize advanced measurement facilities such as the X-ray free-electron laser facility SACLA, the large-scale synchrotron radiation facility SPring-8, NanoTerrace, and