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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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continuously and precisely sense and process molecular signals among infectious bacteria colonies for diagnosis. The receiver development will consider novel design principles combining approaches in biosensors
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engineering, biotechnology, or a related field Excellent knowledge of organic synthesis and/or polymer synthesis and experience with molecular modelling Practical experience with biosensor-oriented analytical
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consider novel design principles combining approaches in biosensors, communication systems, and machine learning. Are you motivated to take a step towards a doctorate and open up exciting career
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. The selected candidate will be involved in the the electrochemical biosensor design based on ab-initio numerical simulations and experimental results interpretation. The position will be part of Plasma Physics
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systems as intelligent biomaterials and biosensors Assembling cells into multicellular structures and tissues (e.g. 3D printing of cells) Interfacing biomolecular systems with solid-state technology
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. Combining cutting-edge biochemical, biotechnological, and instrumental analysis- such as automated patch clamp for single-cell analysis, aptamer-based biosensors and immunosensors and mass spectrometry
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electromagnetic device performance analysis>>>Embedded SystemsResearch focuses on:•Robotics, computer vision, and machine learning/deep learning•Wearable and implantable sensors, biosensors, and tele
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Team Leader. Leading the design, development of lateral flow assays, synthetic biology systems, and biosensor platforms; plan and execute experiments, troubleshoot, and analyze data, ensuring robust
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combination of high-end microscopy combined with fluorescent biosensor imaging, optogenetics and genetically-encoded molecular tools enabling subcellular manipulation in vitro and in vivo. She/He will also work