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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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, and analysis of multicolor images. - Advanced optical microscopy (nanoscopy) - Image acquisition and analysis - Microfluidics - Fluorescent labeling protocol - Multimodal characterization
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, hepatitis B virus, coronaviruses, and others. For more information, please visit our official website: https://cidr.westlake.edu.cn/en/ . We are seeking outstanding scientists to lead vigorous, independent
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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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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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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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immunohistochemistry, and be comfortable working across in vitro and in vivo systems. Experience with advanced culture platforms—such as human iPSC-derived models, 3D glioma cultures, or microfluidic systems—is highly
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with real-world samples, and effectively integrating them with microfluidics as a standalone device. This is a great opportunity to learn new skills, contribute to assay development, and intellectually
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fellowship: New microfluidic tools for rapid phage therapy testing and manufacturing Within the remit of the ERA Chair project REACTORS 5.0 “Sustainable REACTOR and microreactor designS for boosting green and
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fellowship: Novel microfluidics and machine learning tools for unravelling environmental microbiomes Within the remit of the ERA Chair project REACTORS 5.0 “Sustainable REACTOR and microreactor designS