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developing morphing surfaces enabled by Shape Memory Alloys (SMAs). These adaptive winglets are designed to optimize aerodynamic performance by responding to temperature variations and incorporating active
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such as sole and plaice typically use heavy tickler chains dragged through the sediment to startle and catch fish. This largely indiscriminate technique results in low catch selectivity and high bycatch
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schemes for controlled peptide translocation through nanopores by use of electro-osmotic (EOF) flow that is generated by DNA origami. We will study this EOF and EOF-driven peptide translocation. Beyond
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to staff position within a Research Infrastructure? No Offer Description Postdoctoral researcher for developing microfluidics for research on synthetic cells Job description In this project we will use
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project will focus on developing schemes for controlled peptide translocation through nanopores by use of electro-osmotic (EOF) flow that is generated by DNA origami. We will study this EOF and EOF-driven
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of this IDP-mediated selective barrier function. In our biophysics lab we study in vitro reconstitutions of the NPC in simple mimics that are made using DNA origami and microfabrication. We study single
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postdoctoral researcher, you will use various techniques to investigate fiber-reinforced structures in nature (i.e., fungi), including additive manufacturing, computer simulations, materials testing, and
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. You will be part of the Mathematics of Imaging & AI chair , which has ample expertise in the development of reliable and robust deep learning methods with clinical impact. The project is highly
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. Your work may involve formulating new models, analysing structural properties, and developing innovative algorithms with both theoretical rigor and practical relevance.
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their cargo. A mechanistic understanding of this puzzling selectivity has remained lacking. The aim of this proposal is to resolve the fundamentals of this IDP-mediated selective barrier function. In our