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optimizing heat transfer, cost-effectiveness, and integration with façade panels. We aim to create scalable, sustainable building solutions. The project is integrated in an international project financed by
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Job Description Do you want to contribute to a new research field where oxide/metal hybrid devices are geometrically optimized to yield extraordinary performance, including the highest
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for industrial decarbonization with emphasis in system development, modelling, optimization and validation, and focus on: Develop thermally integrated storage and conversion systems, including Carnot batteries and
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HVAC control practices and to develop innovative control strategies for improving comfort and energy performance of buildings and HVAC systems. This includes developing and testing optimized control
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our team at DTU Compute, offering a fully funded position within a dynamic and interdisciplinary research environment. The positions are part of the research project “AI-driven materials optimization
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, aiming to advance sustainable food innovation. The project will mainly take place at DTU National Food Institute in Lyngby, but some work may be done in collaboration with project partners in other
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optimization, for enhancing light trapping in nanostructured thin-film solar cells. Your role will focus on developing and applying large-scale electromagnetic simulations to identify optimal nanostructured
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, here is your chance to join our work on power-to-X (PtX) and energy storage. We invite applications for two postdoc positions in the field of PtX, electrolysis, electro-thermal energy storage such as
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Job Description If you are an experimental physicist or optical engineer with a passion for nonlinear optics, quantum optics, and advanced fiber technologies, this is your chance to work at the