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neuroscience • Psychological and brain sciences • Medical • Biomedical • Nanofluidics and microfluidics • Biomimetics and biofilms • Social media analysis and predictive modeling • Molecular, cellular
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. microscopic properties alter the macroscopic ones. To obtain insights into multiphase flow at the droplet scale, microfluidics is a powerful and well-established tool. While these measurements provide valuable
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internationally recognized research in organs-on-chip and droplet-based microfluidics in collaboration with research teams at several different Swedish and foreign universities. Research funding has been obtained
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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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, and Jason Widegren https://www.nist.gov/programs-projects/electric-acoustic-spectroscopy-intermolecular-interactions-solution#OnChip NIST’s Material Measurement Laboratory (MML) and Communications
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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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antimicrobial strategies, lipid membrane platforms, membrane-active compounds, antibacterial and antiviral applications, plant-based bio-material applications, etc. For more details, please view https
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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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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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(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