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of single-molecule sensors that exploit collective and localized resonances in metasurfaces to boost the sensitivity of plasmonic biosensors. Introduction Current workhorse techniques to detect and
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metasurfaces to boost the sensitivity of plasmonic biosensors. Introduction Current workhorse techniques to detect and study single biomolecules rely on fluorescence microscopy. Recent advances in Zijlstra’s
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Science Education. The molecular plasmonics group develops plasmonic and nanophotonic biosensors with single-molecule sensitivity. The team is multidisciplinary and hosts physicists, chemists, and
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Science Education. The molecular plasmonics group develops plasmonic and nanophotonic biosensors with single-molecule sensitivity. The team is multidisciplinary and hosts physicists, chemists, and
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CRISPR-based genetic perturbations and diverse compound libraries. The role includes applying advanced live-cell and functional imaging technologies, incorporating biosensors into 3D models, and leveraging
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-qualified biosensors for detecting molecular biosignatures during planetary exploration missions. The LMCOOL system uses integrated photonic circuits with asymmetric Mach-Zehnder Interferometer (aMZI) sensors
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develops space-qualified biosensors for detecting molecular biosignatures during planetary exploration missions. The LMCOOL system uses integrated photonic circuits with asymmetric Mach-Zehnder
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Are you an expert in wearable/flexible electronic sensor technology, bioelectronics, biosensors and real-time health monitoring? Are you looking for a career development opportunity with a