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the field of laser technology, is offering the opportunity to write a thesis in the field of "Biofabrication" on the topic of "Production of microfluidics." Point-of-care diagnostics offers significant
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the field of laser technology, is offering the opportunity to write a thesis in the field of "Biofabrication" on the topic of "Production of microfluidics." Point-of-care diagnostics offers significant
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intratumoral bacteria (together with the immune system) impact on cancer cell development is one of the main questions in the field. To study this question, we utilize cutting edge, microfluidic organ on a chip
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combining microfluidic, acoustic, and optical systems. The project will make use of 3D printing by two-photon stereolithography to rapidly prototype and develop devices that integrate with sample delivery
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of precision fermentation or cell culture - Affinity towards technical tasks and bioprocess control - Advantageous: Experience in mathematic modeling, programming, CAD, microfluidic or bioreactor systems
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at the Technical University of Munich (www.cda.cit.tum.de ). Accordingly, we are currently searching for a Ph.D. Student to join our team to work on Simulation of Microfluidic Systems! Our Research We currently
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at the Technical University of Munich (www.cda.cit.tum.de ). Accordingly, we are currently searching for a Ph.D. Student to join our team to work on Simulation of Microfluidic Systems! Our Research We currently
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Max Planck Institute for Terrestrial Microbiology, Marburg | Marburg, Hessen | Germany | 3 months ago
validation of a microfluidic chip designed for age determination in budding yeasts, specifically Saccharomyces cerevisiae. Leveraging a patented chip geometry as your foundation, you'll embark on an exciting
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advanced light microscopy methods (incl. lightsheet microscopy), microfluidics, and computational approaches (see www.ep1.uni-bayreuth.de/en/research for details). Applicants are expected to have earned a
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value an open culture of knowledge transfer. Project description A large fraction of our research centers on deformability cytometry (DC), a high-throughput microfluidics-based imaging technique for cells