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purification of fluorescently labelled proteins and chromatin Research on protein-chromatin interactions using single-molecule FRET Design of mutations in transcription factors Where to apply Website https
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at the University of Graz, Austria. About the Position: This role focuses on developing advanced single-molecule fluorescence and microfluidic approaches (confocal, TIRF, single-molecule FRET) for biophysics
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a PhD position in the field of metasurfaces for single-molecule biosensing. This project aims to develop a new generation of single-molecule sensors that exploit collective and localized resonances in
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of gaseous fuels remains a major challenge. Inspired by nature’s own strategies where organic molecules are used instead of hydrogen gas to store, transport, and deliver electrons in the form of hydride (H
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This PhD project explores the intersection of quantum plasmonics and molecular photonics, aiming to measure quantum light emission from molecules confined within plasmonic optical cavities
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! The sensing technologies that are being developed in the Molecular Biosensing group (MBx, see www.tue.nl/mbx ) are unique in the world. The sensors are based on reversible single-molecule interactions
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aims to develop physics-informed artificial intelligence tools for single-molecule fluorescence microscopy. The PhD student will focus on designing AI-based methods for quantitative analysis of protein
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, physiology, reproductive immunology, histology and functional morphology (in the context of evolution and ontogeny) into a single entity, the link between which is the immune system. The immune system is a
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are urgently needed to monitor PFAS in water and probe their interactions with biological systems. This PhD project will develop a cutting-edge single-molecule optical sensor for real-time, ultra-sensitive PFAS
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-metallic structures, one can direct and concentrate light at small enough volumes, to create nanoplasmonic cavities that can enclose even single molecules. Plasmons (or light in general) have the ability