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human fat cells. As a research assistant in our team, you will play a central role in developing and optimizing these gene editing strategies. This includes testing approaches such as integrase-deficient
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collaboration with humans, adapting to their environment through sensors, information and knowledge, and forming intelligent systems-of-systems. The vision of WASP is excellent research and competence in
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, spectroscopic signatures, microstructural images, processing conditions, and macroscale performance will be used for the optimization of materials. The candidate will collaborate extensively with in
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environment, promoting an optimal professional growth via an adequate balance between work effort and personal time. New employees have the opportunity to engage in truly relevant research projects, educational
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knowledge of antibody biology. Extensive experience in molecular biology and flow cytometry. We are looking for someone who works well independently and has strong communication skills. Merits: Good knowledge
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240 credits, at least 60 of which must be in advanced courses in Electrical Engineering, Computer Science, or Applied Mathematics. Alternatively, you have gained essentially corresponding knowledge in
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to efficiently transform biochar into battery-grade hard carbons with controlled characteristics and optimized electrochemical performance. The use of microwave plasma carbonisation will allow
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and collaboration, we explore the Universe, the Earth and the complex systems linking environment, energy and society – enabling knowledge-based solutions for a sustainable future. At the Division
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. There is growing interest in microsystems that can replicate the local physiology of tumors, providing a platform to identify and optimize therapeutic candidates. Our group specializes in developing
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distributed computational pipelines and optimizing communication costs. You will also contribute to the integration and testing of the models in real D-MIMO environments, in close collaboration with a PhD