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experiments that can support the future production of electrofuels and electrochemicals. You will be part of a collaborative research environment where advanced characterization techniques are combined with
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collaborative research environment where advanced characterization techniques are combined with high pressure experiments. Research environment The position is placed jointly at the Division of Chemical
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battery performance. The project combines expertise in materials science, electrochemistry, and physics, and offers a collaborative environment with access to well-equipped labs and technical support. About
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systems demand power amplifiers combining high efficiency, linearity, and frequency agility. Meeting these requirements calls for a deeper understanding of how semiconductor device properties influence
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. This unique position combines advanced finite element modeling, machine learning, and experimental studies, while offering the opportunity to contribute to open-source libraries and collaborate directly with an
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-source computational tools in a project that aims to create life-saving technology to prevent devastating skull fractures in elderly populations. This unique position combines advanced finite element
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on the marine environment. A key focus is on propulsion systems for road vehicles and ships, including combustion engines, fuel cells, and electrified drivetrains. The work combines modelling and experiments and
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thermal conductivity b) Development of hBN thermal interface material that combines a high degree of compressibility and recovery c) Modeling, simulation and characterization of phonon transfer across