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Experience as a researcher or in industry is a plus Hands on experience with any of the following is an advantage: SEM, TEM, XRD, FTIR, TGA, DSC, NMR; Deep eutectic solvents; Plaster materials; Building
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particle geometry in three dimensions using slice-and-view FIB-SEM analysis. Determining mineralogical and chemical properties (composition, zoning, crystallographic orientation) using complementary electron
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. The content of the research activity: Archeometallurgical analyses SEM-EDS microscopy and chemical composition analysis of iron artifacts, slags, and ores GIS spatial analysis, statistical analysis, and network
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, electronic and chemical properties will be studied by surface science techniques (XPS, RHEED, TPD, SEM). The chemical reactivity of the layers will also be tested in a sensor station under real conditions. 4
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Institute of Low Temperature and Structure Research Polish Academy of Sciences | Poland | about 1 month ago
hydrogenation, smart nanomaterials, thermally-programmed methods, electron microscopy (TEM, SEM), in situ/operando methods Description of the research project and the PhD thesis Supervisor: prof. dr hab. Leszek
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includes https://doi.org/10.1101/2025.0... and https://doi.org/10.64898/2025.... Profile You have: An MSc (or equivalent) in structural biology, cell biology, biophysics, bioengineering
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integrated alpha radiation sources Performing post-mortem analyses (electron microscopy e.g. EPMA, SEM, and X-ray methods e.g. µCT, XRD) Preparing and evaluating solution analyses using ICP MS/OES Publishing
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/Qualifications MSc in physics, chemistry, materials science, or similar. Experience working with various nanostructures, especially in electron microscopy (both SEM (Scanning Electron Microscopy) and TEM
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: Characterize recycled aluminium microstructures using SEM/EBSD, microCT, and in situ mechanical tests. Develop microstructure informed models of plasticity and fracture across length scales. Investigate how
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DTU Tenure Track Researcher on Nanoreactors for Operando Visualizations of Nanoparticle Catalysis...
manipulation (graphene and hBN in particular), controlled nanoparticle deposition and characterization using surface science techniques including both AFM, SEM, and XPS. In addition, you must have comprehensive