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of the world’s strongest research groups in advanced numerical design of wind turbine rotors. DTU Wind and Energy Systems, section for Aero- and Fluid-Dynamics (AFD), invites applicants for a position as Tenure
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the optimal sensor geometry and material properties for the given measurement scheme using novel topology optimization tools. The numerical designs will be experimentally realized using high-mobility graphene
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characterization as well as performing data and structural analysis at the desk. You will need strong experimental skills, including following protocols, generating reproducible data, and experimental design. You
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reasonable flexibility is expected to help in other research projects. The two projects are financed by the Innovation Fund Denmark, as a part of the Innomission Investments, which allocate DKK 700 million for
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uncertainty, advanced skills in programming, deep learning and/or experience with case studies in green chemistry, early-stage alternatives assessment or safe and sustainable by design (SSbD) are a clear
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research, education, innovation, and scientific advice. We offer a rewarding and challenging job in an international environment. We strive for academic excellence in an environment characterized by
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Development and Demonstration Program). The primary purpose of the project is to develop the process to the stage of a working prototype at industrial scale. Responsibilities and Tasks You will: Plan and
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. The successful candidate will collaborate with the CAPeX X4 team to integrate deep learning models like Alphafold3 to predict and design the protein structure and interactions to engineer and optimize the protein
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environment Experience in providing bioinformatics support to non-bioinformaticians Experience in providing bioinformatics and WGS data analysis training Ability to plan and execute complex tasks according
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sustainable economic growth and higher levels of technological innovation. It will benefit society and create a safer and smarter world by providing decent work for all. Furthermore, autonomous safe robots will