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contribute to smart grids that make energy networks more efficient, mathematical models that assist medical doctors, schedules that make hospitals more efficient and numerical schemes to study multiscale fluid
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academic backgrounds and industrial experience in a broad variety of disciplines such as propulsion, avionics systems, system engineering and integration, mechanical systems, assembly, integration and test
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on drought resilience of dike vegetation types at Radboud University's experimental garden, and develop a strategy for the continuation of this experiment. Moreover, in addition to these research activities
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developers, electrical and mechanical engineers. Experience and strong understanding of machine learning algorithms, mathematical modelling, and applications of AI. Proficiency in Python, leading ML frameworks
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within a cross-functional team, including software developers, electrical and mechanical engineers. Experience and strong understanding of machine learning algorithms, mathematical modelling, and
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peptide translocation. Beyond COMSOL finite-element numerical simulations, the focus is on experimental characterization of various analytes in various modified nanopores by ion current measurements
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COMSOL finite-element numerical simulations, the focus is on experimental characterization of various analytes in various modified nanopores by ion current measurements, augmented by AFM, TEM and DIB
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-term experiment on drought resilience of dike vegetation types at Radboud University's experimental garden, and develop a strategy for the continuation of this experiment. Moreover, in
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the bottom up and study these in biomimetic solid-state nanopores. The approach can be expected to uncover the vital mechanism of selective IDP-mediated transport and thus answer one of the central questions
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aimed to bridge fundamental studies with application-oriented ‘proof-of-principle’ device developments. Most of the experimental research concentrates around thin film samples, which are fabricated in