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fast-paced research environment, a structured and organized approach is highly valued. You will work in a team of researchers from diverse backgrounds, including PhD students and postdocs, and should
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technology or construction engineering or completed courses with a minimum of 240 credits, at least 60 of which must be in advanced courses. Alternatively, you have gained essentially corresponding knowledge
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design with advanced structural, spectroscopic, and electrochemical characterization methods to unravel how ions, charges, and molecular interactions govern doping efficiency and stability. By exploring
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materials design with advanced structural, spectroscopic, and electrochemical characterization methods to unravel how ions, charges, and molecular interactions govern doping efficiency and stability. By
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, flexible materials, bio-based foams, recycled fibers, adaptive textiles, fabrics, padding materials, and composite structures. It will also address the reduction of environmental impact while extending
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background and skills, and how you envision your role in the implementation of the project. Your workplace You will belong to the Unit of Radiological Sciences at the Department of Health, Medicine and Caring