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Field
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fluidic control via segmented flow microfluidics. Your research will focus on upgrading the automation control of the system and increasing knowledge on the microfluidics of segmented organic solvent slugs
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Discovery Innovation Network foundation, NNF grant number: NNF23SA0088590. The position focuses on experimental development at the interface of microfluidic organ-on-chip systems and metabolic magnetic
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microfluidics. We are seeking a highly specialized postdoctoral researcher to lead a unique project at the intersection of microphysiological systems (“organ-on-a-chip”) and hyperpolarized nuclear magnetic
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tooth enamel mineralization by 4D microscopy and microfluidics. We are looking for a motivated and imaginative materials chemist to drive the effort towards developing breakthrough remineralizing
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analysis pipeline to probe cell and tissue mechanics and cell–cell mechanical interactions. Microfluidic systems for controlled migration assays, immune‑cell trafficking, and spatially resolved tumor–immune
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coral microbiology and virology. Demonstrated experience in development of microfluidics methods. Demonstrated experience operating and maintaining a laboratory equipment relevant to the research
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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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-generation sequencing, ELISA, and related analytical methods; and apply computational skills in collaboration with cross-functional teams, including efforts in microfluidics and high-throughput scaling and
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media systems, with implications for subsurface biogeochemistry and sustainable critical mineral extraction. The researcher will conduct microfluidic experiments to visualize and quantify fungal–mineral
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theoretical or practical knowledge in coral microbiology and virology. Demonstrated experience in development of microfluidics methods. Demonstrated experience operating and maintaining a laboratory equipment