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such 6-15 GHz into use and developing the needed radio resource management innovations to unleash its full performance potential. This includes integrated scheduling, link adaption, MIMO adaption
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PhD scholarship in Biomaterials-based Approach for the Creation of Artificial Red Blood Cells - D...
aims to develop a safe, stable, and universal synthetic oxygen carrier— a new class of hemoglobin-loaded polymeric nanocarriers— that could serve as artificial red blood cells to be used in emergency
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The need for blood-type matching in emergencies Risk of transmitting infections, such as HIV in the past This project aims to develop a safe, stable, and universal synthetic oxygen carrier— a new class of
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influence its development directly. We are currently evolving our mechanical engineering degree program and constructing labs to support both educational activities and research. Workplace description
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wind turbines, etc. Our research on anti-corrosive coating mainly covers development of novel and advanced anti-corrosive coatings, non-destructive coating performance evaluation, coating integrity
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for the position. Our research areas At DTU Physics, we perform research in fundamental and applied physics areas and we use and develop state-of-the-art experimental and theoretical approaches. We have broad
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responsible for developing new methods for decision support in stochastic optimization, using AI and advanced metaheuristics. Furthermore you should (together with the team) participate in development
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process. An integral part of the project will be the development of enhanced data-driven physics methods to achieve reliable prediction of material removal rate and material removal distribution
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to plastic pollution and a circular plastic economy. Responsibilities and qualifications Your activities will revolve around the development of a framework to predict the degradability of bioplastics by
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the proposed project you will develop a new platform based on higher order modes and the Raman effect to demonstrate high-power fiber lasers and amplifiers at arbitrary wavelength. The project will among others