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trapping and analysis using state-of-the-art nanopore experiments. About the Project Our group has pioneered the development of the Nanopore Electro-Osmotic Trap (NEOtrap), a groundbreaking technique that
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group with an open and interactive lab culture. State-of-the-art research infrastructure and facilities at the Dept. of Chemistry, the Swiss Nanoscience Institute, and the University of Basel
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environment with state-of-the-art infrastructure close supervision and room for scientific independence opportunities to attend international conferences and schools a fully funded PhD position with competitive
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modern applications. Their unique properties make them ideal quantum systems ideal for benchmarking state of the art theories in atomic and molecular physics. The EU-funded Horizon Europe Doctoral Network
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blade aerodynamics, gust interactions, and fluid-structure interactions. The research focuses on unfolding the origin and development of unsteady flow separation and vortex formation. The lab has built a
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. An exciting and fully funded PhD project at the University of Basel, Switzerland. Embedding in a productive, interdisciplinary group with an open and interactive lab culture. State-of-the-art research
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components and nucleic acids interact and self-assemble. Apply data analysis and modeling to deepen understanding of nanoparticle architectures, and contribute to standardization-relevant method development
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, interact with the other 4 PhD students of the project at ETHZ and TU Delft, and use state of the art methods such as Nanoindentation, Raman Spectroscopy, Digital Light Processing, Two-Photon Lithography