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-resistant pathogens. In this position as a postdoc you will develop innovative microfluidic habitats that generate precisely controlled oxygen and nutrient dynamics for high-throughput microbial invasion
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around our microfluidic technologies, which uniquely will be scaled up in South Africa for field validation. The post requires a person with expert knowledge in microfluidics and advanced materials
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discovery and basic research to clinical translation. The PhD student will be part of the Organs-on-Chip Technologies Lab (Prof. O. Guenat), which integrates microfluidic engineering with advanced cell
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that arise, and contribute intellectually to the project. For more information, visit: https://wyss.harvard.edu/focus-area/biomimetic-therapeutic-diagnostics/ What you'll do: Perform microfluidic organ-on-chip
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collaboration, we are building a high-throughput single-cell analysis platform that combines microfluidics, advanced imaging and AI-based analysis to study gut microbial consortia. You will drive the development
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will rely on advanced rheophysical, microscopy, and microfluidic techniques, as well as on the use of natural polymers derived from biomass (pectin, cellulose, hemicellulose), whose properties will be
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biological functionality within a multi-organ microfluidic platform. You will be a key member of an international multipartner cluster, supporting researchers by adapting microfluidic platforms to a range of
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, NMR spectroscopy, microfluidics, and neurophysiology to uncover a fundamentally new mechanism of sensory adaptation in neurons. Biomolecular condensates are dynamic, membraneless organelles formed
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the laboratory. These liposomes will be confined in textured microfluidic channels. The project will determine the conditions that enable migration of this biomimetic cell and how this migration depends
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access to top-of-the-line Thermo Astral Zoom and Bruker TimsTOF-ultra mass spectrometers, laser capture microdissection, unique open-flow microfluidic probe systems, the Seer Proteograph deep plasma