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thermoplastic polymer-nanofiller composites for dry electrode processing Engineer fibrillar composite network structures with tailored morphology Develop processing routes Perform advanced structural and
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introducing recyclability and regulatory compliance. Your Tasks: Develop and characterize thermoplastic polymer-nanofiller composites for dry electrode processing Engineer fibrillar composite network structures
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engineering, physics, materials science, or related fields. Tasks will focus on the design, construction, and commissioning of a heavy-ion beam irradiation chamber. The candidate will work in a
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Your Job: Synthesis and physicochemical characterization of energy materials or representative model systems Characterization of the dynamical and structural properties of energy materials with a
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on developing advanced methods for semantic structure extraction, conceptual and argumentative flow reconstruction, rationale-aware content generation, metacognitive prompting, and adaptive personalization. Core
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spectroscopy, and physisorption, and analyze their surface chemistry to derive structure?property relationships. You will study the adsorption behavior of carbon dioxide in the presence of water (co-adsorption
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Job description: DESY The European XFEL is currently the world's most powerful free-electron laser and has, over the past decade, significantly advanced the ability to resolve the structure of matter
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Fraunhofer IGD and the FBN team to safeguard an efficient collaboration and communication between behavioural biologists and computer scientists. The project is part of the KI-Tierwohl project (https://ki
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our publications here . Our team is at the forefront of bringing autologous cell replacement therapies with CRISPR-edited muscle stem cells towards the clinic (https://www.mdc-berlin.de/news/news/deep
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world with increasing digitalization and medical needs. Our research integrates materials chemistry, biological processes, physical analysis, process engineering and data science. We collaborate with