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/ X-ray crystallography and natural product research is required. Knowledge in enzymology, protein design, molecular biology, microbial metabolism, natural product analysis (LCMS, NMR etc.) and/or
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inverse and data-driven modeling, enabling quantitative interpretation and predictive design of complex magnetic systems.
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translational biomedical research. The successful candidate will be based at Empa and play a central role in designing and realizing optimized magnetic multilayer systems. Your role at Empa Design optimized
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Design and microfabrication of soft optical fibers densely distributed with actuators Develop actuator multiplexing methods for individual addressability Demonstration for advanced robotic functions as
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of an injectable hydrogel system for controlled drug delivery. You will design the hydrogel, tune its properties and subsequently functionalize it to achieve predictable drug release using state of the art
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methods and systems to overcome the limitations of today’s materials processing technologies. One particular area of interest is the design and fabrication of active structures through hybrid production
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: The project aims to develop a novel mechano-Raman imaging platform to map mechanical deformation in polymeric materials with high sensitivity. By combining the design of vibrational force probes with advanced
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crystallography and natural product research is required. Knowledge in enzymology, protein design, molecular biology, microbial metabolism, natural product analysis (LCMS, NMR etc.) and/or bioinformatics
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ongoing efforts in inverse and data-driven modeling, enabling quantitative interpretation and predictive design of complex magnetic systems. Postdoctoral Researcher: Multilayer Magnetism for Spintronic
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driving epithelial dysfunction and disease-associated remodelling. In this role you will: Establish and optimize human iPSC-derived skin and hair follicle organoid systems. Design and perform CRISPR/Cas9