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processes at the NMJ and their underlying molecular mechanisms. For this, we have designed an interdisciplinary research project where fundamental research groups team up in a new collaboration aiming to
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. Elucidate the formation of spherical photonic materials using emulsion-based methods and/or microfluidics, evaluating the effect of photo-crosslinking on the mechanical stability and moisture resistance
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for their governing mechanisms? How can we make these model computationally efficient and capable of scaling to large dataset sizes? Scientific challenges for this exciting PhD project include: develop principled
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. Change. Impact! Faculty Mechanical Engineering From chip to ship. From machine to human being. From idea to solution. Driven by a deep-rooted desire to understand our environment and discover its
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into include: Upscaling of multiphysics transport phenomena Film formation and efflorescence Multiphase Computational Fluid Dynamics High-performance computing Where to apply Website https
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. The Faculty of CEG comprises 28 research groups in the following seven departments: Materials Mechanics Management & Design, Engineering Structures, Geoscience and Engineering, Geoscience and Remote Sensing
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), and implement personalized dialogue-based explanation mechanisms. You will be part of the DECIDE project: a large-scale, NWO-funded research initiative under the Dutch Research Agenda (NWA). It brings
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that can be tested directly against large-scale viral genomic data. The central challenge of this project is to connect microscopic evolutionary mechanisms—mutation, selection, and ecological feedback
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transcription-coupled and other nucleotide excision repair–related DNA repair mechanisms (https://lanslab.eu/publications/ ). This project builds on our previous findings that persistent DNA repair intermediates
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mechanics to patient-specific prognosis. If you are eager to combine state-of-the-art computational tools with advanced microscopy to solve the puzzle of blood clot fracture and embolization, this is your