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to learn state-of-the-art lab methodology, comprising pulsed laser deposition (PLD), atomic force microscopy (AFM), advanced X-ray diffraction (XRD), and electrochemistry. Additionally, synchrotron
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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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structural characterization of the corneocyte–lipid interface using state-of-the-art neutron diffraction and neutron reflectometry, combined with advanced optical microscopy approaches. The project is
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Force Microscopy for monitoring polymer growth with nanometer scale resolutions, in-situ and post-mortem Small and Wide Angle X-ray Diffraction for the quantitative identification of different phases and
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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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biology through single-crystal neutron diffraction techniques. This position focuses on visualizing critical hydrogen atoms in carbohydrate-binding proteins and their complexes using neutron diffraction
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data from the European XFEL facility at DESY. Project website: https://www.mpinat.mpg.de/628848/SM-Ultrafast-XRay-Diffraction Your profile Eligible candidates have strong skills in computational
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and near-infrared wavelength range by fabricating parabolic and elliptical GRIN microlenses, axicons, diffractive optical elements (DOEs), and birefringent artificial glass materials. The aim of using
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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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for a Postdoctoral Fellow in lithographic fabrication of X-ray optics for microscopy and spectroscopy Your tasks Development of nano-fabrication processes for diffractive X-ray optical elements at PSI's