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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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advanced microfluidic platforms to study Staphylococcal biofilm formation, antibiotic resistance, and host–pathogen interactions in periprosthetic joint infections (PJIs). Where to apply Website http
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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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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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brain sciences • Medical • Biomedical • Nanofluidics and microfluidics • Biomimetrics and biofilms • Social media analysis and predictive modeling • Molecular, cellular, ecosystems, marine science, and
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hurdle to overcome. Based on our experience in microfluidic design and our understanding of confinement mechanisms in nanopores, we propose a new concept of devices capturing target biomarkers in microgel
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, Applied Mathematics, Physics, Chemical Engineering, or a related field. Preferred Qualifications: Experimental expertise (e.g., benchtop flow, porous media, hydrogels, imaging, and microfluidics) Experience
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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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. Experience: Previous experience with the below is highly preferred: microfabrication or microfluidics biomolecular assays (ELISA, HPLC, and others) Animal work (surgery, bleeding, blood glucose measurements
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biotechnology tools • Cognitive neuroscience • Psychological and brain sciences • Medical • Biomedical • Nanofluidics and microfluidics • Biomimetics and biofilms • Social media analysis and predictive modeling