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novel platform of self-assembling ice-interactive biomaterials and elucidate their structure-function relations to tailor activity. Key Responsibilities: Conduct high-quality, curiosity-driven, original
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to modulate activity as desired. Key Responsibilities: Conduct high-quality, curiosity-driven, original, and independent research focusing on quantitative imaging and super-resolution microscopy
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fluid flow topics organized into four main research lines: Turbulence, Environmental Fluid Mechanics, Multiphase and Complex Fluids and Micro- and Nanohydrodynamics. Job requirements We are looking
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teaches highly motivated Masters of Science, designers and doctoral candidates, and carries out breakthrough research in its field. The department has three spearheads: Connected World, Care and Cure, and
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, tangible interaction or virtual reality or augmented reality. The position is embedded in a currently running EU-funded project. The research project The main objective of COROB is to develop a flexible
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of the mechanisms underlying tissue regeneration and implant integration in vivo, with a main focus on cardiovascular regeneration. Using these insights - gathered through analysis, reusing, and mining of our
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impact. Job description Your main scientific focus will be on operational coordination methods for local energy systems and the simulation tools and models validating those. You develop knowledge and
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high quality academic research, reflected in demonstratable outputs. A team player who enjoys coaching PhD and Master's students and working in a dynamic, interdisciplinary and international team. A
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you have taken in your Ph.D., Masters, and Bachelor programs (including grades). We look forward to receiving your application and will screen it as soon as possible. The vacancy will remain open until
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, and is ambitious to push the cutting edge of the power electronics technologies for hydrogen applications. Excellent mastering of the English language, good communication and leadership skills. Note