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for nanometric ion implantation based on laser ionization of neutral atoms coupled to a focused ion beam (FIB). The researcher will take part in the design, implementation, and performance characterization
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, including cryo-FIB/SEM lamella preparation and/or cryo-ultramicrotomy, is a strong advantage; prior exposure or clear motivation to learn these techniques is also highly valued Basic
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develop and apply implement cryo-FIB lamella preparation, cryo-ET and subtomogram averaging to resolve centrosomal assemblies in near-native contexts. You will also use immunohistochemistry to trace
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analysis. Main Tasks and responsibilities: • Operate and optimize advanced STEM and FIB instrumentation for the nanoscale analysis of catalytic and energy-related nanomaterials, supporting the development
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-electron microscopy–based approaches. More information about the laboratory can be found at: https://www.cryo-em.psu.edu/ . The postdoctoral scholar will contribute to ongoing projects to define structural
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electrodes using various electron microscopy techniques (e.g. FIB-SEM); (ii) Reconstruction of the 3D structure through image analysis; (iii) Analysis of images from new and aged membrane-electrode assemblies
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experiments (He⁺, H⁺, and Fe²⁺) with advanced microstructural characterization (TEM, FIB, EBSD, APT) to elucidate the atomic-scale mechanisms governing interface stability and helium transport. The ultimate
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or burn-resistant testing demonstrated experience with conducting microstructural characterization techniques such as SEM, TEM, XRD, EDS, EBSD, FIB/SEM etc., as well as physico-mechanical characterization
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of friction, wear, tribo-corrosion, and fatigue. Your work will be experimental, and you will have access to one of Europe’s best-equipped tribology laboratories, as well as advanced analysis tools such as FIB
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-driven micromagnetic computational simulations. Extending MERRILL with a data-driven workflow that incorporates constraints from Quantum Scanning Microscope and slice-and-view FIB-SEM measurements