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to contribute to a new building materials revolution? Join us in developing sustainable, nature-inspired materials that capture CO₂, store energy, and transform waste into smart construction solutions. The iMAT
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from synchrotron experiments on deforming metals. About Us You will join an international and highly multidisciplinary team of approximately 5 PhDs and postdocs, fostering a strong collaboration between
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activities will include (but not be limited to) understanding dynamic sea level changes, modeling vertical land movements, and quantifying gravitational changes caused by present and future changes in land
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methods (e.g. workshops, digital sprints), and ethnographic fieldwork. You will be breaking new ground within STS and Valuation Studies in a larger research team led by Principal Investigator, Professor
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and more answers and further insight about the Earth and the universe surrounding us. We contribute to about 200 scientific publications a year. In the Astrophysics & Atmospheric Physics Division
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state-of-the-art experimental platforms and contribute to the development of novel diagnostic biosensors and cancer-focused nanomaterial platforms with strong potential for clinical impact
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BSc and MSc students and technical specialists work as a dedicated team advancing solid-state quantum sensing. We expect you to have: Strong experience in experimental quantum optics Skills in designing
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processing methods (such as solid-state chemical synthesis and wet chemical-based approaches) to fabricate all-solid-state sensor structures Set up experimental work to identify areas for sensor improvement
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potentials (ENNPs) to model nanoparticle energy surfaces. Building atom-explicit ground-state models of supported and unsupported nanoparticles. Modeling catalytic reaction kinetics to identify active sites