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discover how Artificial Intelligence is transforming tongue cancer surgery? Join our innovative PhD program at the Netherlands Cancer Institute and make real impact by helping surgeons to achieve more
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Are you ready to discover how Artificial Intelligence is transforming tongue cancer surgery? Join our innovative PhD program at the Netherlands Cancer Institute and make real impact by helping
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who thrives in a multidisciplinary environment. You are self-motivated, solution-oriented, and eager to apply your skills to translational oncology research. You also have: A recent PhD in (bio)medical
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eager to apply your skills to translational oncology research. You also have: A recent PhD in (bio)medical physics or (bio)medical engineering. A strong interest in radiotherapy, CT imaging, dosimetry
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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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biophysics lab we study in vitro reconstitutions of the NPC in simple mimics that are made using DNA origami and microfabrication. We study single-molecule transport and measure the NPC nanoscale structure
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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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function such as shape manipulation. Next to all this, the candidate will also do research on entropic segregation of synthetic genomes by testing long labelled DNA molecules in nanofabricated cavities
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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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long labelled DNA molecules in nanofabricated cavities. The project is part of the BaSyC and EVOLF consortia. We search an applicant with experience in microfluidics and a vision for conceptual novel