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Field
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screening of microorganisms Use of microfluidic devices Qualifications as a first responder, previous participation in laboratory safety training Applications can be submitted until: 18th of February 2026
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separate CTCs from blood. This will include, cell culturing, microfluidic and flow cytometer cell sorting and operation of mass spectrometers (MS), as well as multi-omics data integration and analysis
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of the post The successful candidate will be responsible for 3D bioprinting of hydrogel fibres with different shapes and mechanical properties mimicking blood vessels using microfluidic-based platforms
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mechanical and biochemical environments. The position offers opportunities to collaborate across disciplines in biomaterials design, microfluidic tissue models, and vascular mechanobiology. Duties
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knowledge of microfluidic automation, including actuators like pumps, valves, and electromagnetic components, along with heat transfer concepts. Familiarity with 3D printing or other rapid prototyping methods
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periods. b) Relevant experience in the development of 3D in vitro models and technologies based on microfluidics and nanomedicine for application in cancer research. 5. Formalization of the applications
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fluorescence microscopy. Experience in 3D modeling (e.g., SOLIDWORKS), fabrication of biotechnological devices, and microfluidics for organ-on-chip development. d) Experience in transcriptomic, proteomic, and
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studies and post-doctoral periods. b) Relevant experience in the area of biomaterials and biofabrication of microphysiological models based on 3D bioprinting and microfluidics for cardiovascular
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cell models and in molecular and biochemical characterization techniques (qPCR, western blotting, immunocytochemistry, ELISA). Research experience in cancer and microfluidics will be valued. 5
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Innovate UK to advance highly reproducible human in vitro models. These systems combine patient tissue with microfluidic technologies to recapitulate tissue structure and function while reducing reliance