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. This project aims to overcome that limitation by extending our high-throughput metabolic fingerprinting platform into 3D cancer models such as spheroids and organoids. By combining untargeted metabolomics, high
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function. Additional research areas include the pathomechanisms of endometriosis using 3D and organoid models, as well as the links between reproductive disorders, reproductive aging, and premature vascular
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to complex 3D underground geometries. The research will be conducted in close collaboration between BedrettoLab run by ETH and the underground test facilities Hondrich run by armasuisse. The project spans
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to join the interdisciplinary SNSF-funded research project "Digital Originals in 3D" (D2M). This innovative project is a collaboration between the University of Basel, the Bern University of the Arts, and
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spectroscopy Should have working knowledge of optics, electronics, 3D experimental design (e.g., CAD) and coding languages (e.g., Python) Should be willing to train users of spectroscopic and experimental
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microorganisms can be used to produce high-performance biopolymers. The scalability and non-seasonality of this process will enable the sustainable manufacturing of biopolymer filaments, films and 3D structures