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and compartmentalization. ESPCI will contribute to the in vitro compartmentalization of autocatalytic and metabolic system in emulsion droplets and coacervate droplets using microfluidic systems
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vitro and in vivo using methods such as fluorescence microscopy and microfluidic sorting systems. Apply these RNA devices to control gene expression of metabolic pathways and determine improvements in
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vitro and in vivo using methods such as fluorescence microscopy and microfluidic sorting systems. Apply these RNA devices to control gene expression of metabolic pathways and determine improvements in
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of gels with different swelling responses. Specific tasks include: - Perform experimental work on microfluidics and soft condensed matter. - Analysize data. - Use theoretical models to rationalize data
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. More information can be found on this website: http://nanobio.tamu.edu Responsibilities: Perform research in microfluidics, lab-on-a-chip, and organ-on-a-chip systems in the NanoBio Systems Laboratory
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hydrogel-based biomimetic matrices (notably GelMA) to support the generation, maturation and functional optimization of multicellular adipose organoids, and integrate them into microfluidic platforms
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(Türkiye), Oxford Brookes University (UK), and Gdansk University of Technology (Poland). The project aims to develop a new generation of microfluidic system for combined hydrodynamic and acoustic cavitation
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, and analysis of multicolor images. - Advanced optical microscopy (nanoscopy) - Image acquisition and analysis - Microfluidics - Fluorescent labeling protocol - Multimodal characterization
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lead the development and application of advanced microscopy techniques, microfluidic approaches, and single-cell analysis methods to investigate quiescence at individual cell and population levels. Where
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collaboration with a PhD student at the faculty of Industrial Design Engineering of TU Delft. You will be working on the sensing system in the armband. This will include the sensing yarn, a microfluidics system