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shape cancer progression-and where we can intervene. This research is supported by the ERC Starting Grant. Start date: Flexible, between 1 March and 1 September 2026. Design, plan, and perform experiments
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quantum sensing techniques to probe these emergent states. The successful candidate will join a small, collaborative team and be involved in all stages of the research cycle: design and operation of
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: Design and perform experiments using NMR spectroscopy and single-molecule FRET Purify and biochemically characterize proteins and their complexes Analyze and interpret advanced biophysical and single
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, you will: Design and perform fluorogenic and nano-photonic DyeCycling experiments. Write/adapt analysis code to process fluorescence trajectories and extract kinetic information. Evaluate bioconjugation
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understanding of protein systems. As a PhD student, you will: Design and perform fluorogenic and nano-photonic DyeCycling experiments. Write/adapt analysis code to process fluorescence trajectories and extract
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this project, you will: Design and perform experiments using NMR spectroscopy and single-molecule FRET Purify and biochemically characterize proteins and their complexes Analyze and interpret advanced
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: design and operation of scanning probe instrumentation fabrication of van der Waals heterostructures transport, optical spectroscopy, and quantum sensing experiments data analysis, modeling, and scientific
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characterization and fingerprinting. design and execute experiments to trap single proteins. perform in-depth data analysis and pattern recognition to extract protein properties from electrical current reads
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supportive scientific environment. As a PhD student in this project, you will: Conduct quantum sensing experiments at cryogenic temperatures Investigate the photophysics and spin dynamics of NV and SiV centers