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We are looking for a postdoctoral researcher who wants to contribute to the development of next-generation frameworks for resilient power grids. In this role, you will combine theory and
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of today’s most challenging materials — in particular, advanced battery materials and solid–liquid interfaces. By combining state-of-the-art instruments such as electron microscopy and atom probe
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materials — in particular, advanced battery materials and solid–liquid interfaces. By combining state-of-the-art instruments such as electron microscopy and atom probe tomography, the project aims to push the
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on two main lines of research. The first concerns the modeling of general dark matter–electron interactions in detector materials. This will be achieved by combining methods from particle and solid state
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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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well as research groups and large-scale facilities across Europe. The work will be guided by chemical heuristics in combination with theoretical predictions from symmetry analysis, electronic structure calculations
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to sustainable food production, nutrition and health. Our research ranges from food chemistry and technology to precision nutrition, with a strong focus on marine and plant-based food systems. By combining
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research ranges from food chemistry and technology to precision nutrition, with a strong focus on marine and plant-based food systems. By combining fundamental and applied research, we aim to improve food
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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