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Field
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the structure and behavior of catalytic nanomaterials critical for green hydrogen and energy technologies. The candidate will design and perform real-time in-situ TEM experiments using gas and liquid sample
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morphological, strucutral and chemical analysis techniques will be used, including: cryo-FIB/SEM, cryo-TEM, in-situ and liquid-cell TEM, EC-AFM, XCT, SAXS, XAS, XRS, XPS, etc. Correlate materials characterization
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superalloys and/or Ti-alloys (SEM, EDS, EBSD, TEM, etc.) Personal competences in accordance with the requirements profile including specification (e.g. social skills, meaning that you enjoy collaborating with
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characterization tools (e.g., SEM, AFM, TEM, thermal analysis). Maintain rigorous experimental records and contribute high-quality datasets for internal collaboration. Communicate research results through peer
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using microscopy and materials characterization tools (e.g., SEM, AFM, TEM, thermal analysis). Maintain rigorous experimental records and contribute high-quality datasets for internal collaboration
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will design and perform real-time in-situ TEM experiments using gas and liquid sample environments, enabling the observation of materials under conditions that mimic actual operating environments
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conversion and the role of materials in enhancing reaction efficiency. Analyze products and materials using advanced characterization techniques (e.g., HPLC, GC-MS, SEM, TEM, BET …). Write scientific reports
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. The candidate will design and perform real-time in-situ TEM experiments using gas and liquid sample environments, enabling the observation of materials under conditions that mimic actual operating environments
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using advanced electron microscopy techniques at the Center for Electron Microscopy and Analysis (CEMAS). Responsibilities Conduct TEM, 4D-STEM, electron ptychography, EELS, and SEM/EBSD to analyze
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leverage state-of-the-art in-situ transmission electron microscopy (TEM), including Lorentz TEM, and will have the opportunity to utilize other advanced techniques, such as ultrafast electron microscopy