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- Delft University of Technology (TU Delft); 26 Sep ’25 published
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of Warsaw, with the team of Dr. T. Kamiński, an expert in microfluidics, and the Jagiellonian University, with the team of Prof. J. Dulak, an expert in endothelial cell biology. The acquired knowledge will be
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of complex cell sorting protocols, integrating advanced technologies such as flow cytometry and microfluidics to enhance precision and throughput. The Fellow will design and conduct experiments in molecular
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on developing a microfluidic technology for loading molecules and nanoparticles into red blood cells ex vivo, with the goal of leveraging red blood cells as a biocompatible drug depot for extended release. The
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changes in microgravity conditions. d. Ability to perform cell culture and tissue models such as 3D tissue models and microfluidic systems to simulate microgravity. e. Understanding and experience with
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areas:Miniaturized optically pumped atomic magnetometers (OPMs) for ultra-low-field nuclear magnetic resonance (ZULF NMR) and magnetic resonance imaging (MRI); NMR MRI with a focus on MRI of microfluidic
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background in interfacial chemistry, microfluidics, 2D thin films, and advanced manufacturing. The research might lead to new knowledge or technology and industry collaborations. Also, the part-time position
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vision for higher education, research, and public service. Job Description Purpose: The Postdoctoral Researcher will perform research in microfluidics, lab-on-a-chip, and organ-on-a-chip systems in the
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®. The postdoc would also collaborate with investigators performing microfluidics to characterize streptococci-platelet adhesion and the impact of streptococci on various platelet functions, and would have the
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 20 days ago
mice, culturing them in microfluidic chambers, and probing the molecular pathways of axon degeneration using molecular and cell biological approaches. For the project on stem cells, this would require
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(multiphase flow, phase change materials, nanoscale transport), microfabrication, electrochemistry, microfluidic visualization methods, CFD/2-phase simulations, nanoscale thermal/electrical mobility simulations