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physiological context. In this project, you will contribute to both engineering and neurobiology. First, you will help build a light-sheet microscope optimized for voltage imaging at the single-cell and
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control systems. It will address practical limitations that prevent reaching theoretical performance, with particular emphasis on optimal feedback design, actuator optimization, and novel control strategies
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profiling methods for C. elegans and further optimize them to apply to the early embryo. With this approach, you will generate a genome-wide overview of translational regulation during development. In
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. You will build on our recently developed single-cell ribosome profiling methods for C. elegans and further optimize them to apply to the early embryo. With this approach, you will generate a genome-wide
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(TU Delft). Characterizing powder morphology, flowability, oxidation, and contamination. Fabricating parts using LPBF printing, optimizing process parameters for recycled feedstock. Benchmarking
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a manufacturing technology for producing small to medium-sized thermoplastic composite components in high volumes. Process simulation software is being developed for virtual optimization of tool
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and optimize device architectures using finite element simulations. Fabricate prototypes using 3D printing, and cleanroom technologies. Implement test setups and assess devices performance through
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involve optimizing protocols to convert patient-derived skin cells into neurons (iNeurons). New AONs will be screened through reporter assays and RNA sequencing in iNeurons. Using advanced techniques
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several phases, including analyzing the blind spots of language models, identifying challenges specific to the police context, and optimizing existing AI solutions for secure use within law enforcement. Job
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leverage assets such as grid-level battery storage, and electrolyzers to have more flexibility when making trading decisions. The challenge then is how to optimally leverage such an asset to make viable