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society (plastics, other biomaterials for consumption, food, biofuels, building materials) Evaluation of absolute environmental sustainability performance of fully circular, fully biobased material systems
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automation capabilities beyond current limitations. You will work in close collaboration with automation engineers and life scientists to ensure real-world relevance and system integration in lab workflows
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the public sector. The scholarship is part of the collaborative research project “Valuing invisible work: Efficiency and digitalization projects in practice” funded by DFF. The project has a special focus on
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Combustion Engines, ICE, have been optimized for fossil fuels for more than 140 years but the new fuels have properties that can enable a more efficient operation. Advanced combustion processes like HCCI, SACI
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, electronics, and neuromorphic computing. You will join an international collaboration between DTU, EPFL, and Max Planck, gaining unique opportunities to work at the intersection of materials science, physics
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at the forefront of designing catalysts and using advanced operando tools, such as Raman spectroscopy, to uncover how these reactions happen at the atomic and molecular level. Your work will help pave the way
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Skłodowska-Curie Doctoral Network SCARPA, a European training network committed to circularity and sustainability in the footwear industry. Through advanced experimental work and risk modeling, you will help
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the gap between research and application, and the activities you will contribute to, and lead, include: Building and operating ultra-high vacuum and laser systems. Building electronics and automation
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and operation of building HVAC systems, these technologies support both energy efficiency and flexible demand objectives. Model predictive control (MPC), which involves physics-based building energy
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academic level equivalent to a two-year master's degree in photonics or electrical engineering or applied physics or similar. Experience with optical waveguides, quantum optics and experimental work in these