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multi-organ-on-a-chip platform. Leveraging advanced microfluidics, live-cell imaging, and integrated biosensing technologies, you will help generate multi-parametric insights into barrier integrity
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interest and expertise in chemistry, materials, microfluidics, and biomedical engineering. The candidate will be responsible for designing electrically conductive materials and device for in vivo delivery
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-bioreactor systems for organ-on-a-chip applications. Integrate sensors, microfluidic control, and environmental regulation into compact bioreactor units. Collaborate with biologists and engineers to validate
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chemistry, microfluidic systems development, and applied environmental testing with translational activity including prototype deployment, stakeholder engagement, and regulatory validation support. The post
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models of cell migration, with a focus on the microtubule cytoskeleton and microfluidic assays. You will also perform analysis and optimisation of models in the lab. At this level it is expected that you
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work outside of his/her discipline to accomplish project goals. · Experience with flow cytometry, immunofluorescent imaging, confocal microscopy, ELISAs, and PCR. · Experience with microfluidics
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dissemination of results Design, fabricate, and optimize microfluidic, micropatterned, and biomaterial-based platforms for mechanobiology studies; maintain and oversee specialized fabrication workflows and
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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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systems, preferably patient-derived organoids/tumoroids and/or primary cell co-cultures. Experience with one or more of the following: microfluidics or organ-on-chip systems, perfusable/vascular co-culture
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for food and milk quality using microneedle and microfluidic technologies. You will conduct experimental work, analyse data, and share findings through publications and presentations, contributing