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and infrared imaging, in-situ synchrotron imaging). Your tasks The candidate will study physical phenomena such as internal laser beam reflection, beam trapping in powder streams and powder beds, multi
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. You'll work at the exciting intersection of experimental materials science and materials informatics, collaborating with CSEM and EPFL in a Swiss National Science Foundation (SNF) Bridge Project. Your
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. Utilizing a combination of experimental and computational approaches, we develop and characterize novel functional materials and devices driven by robust nanoscale quantum effects. We are currently seeking a
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) based DCS and develop a spectrometer with unprecedented spectral resolution, sensitivity, and speed. Together with our partners, we will apply this instrument to study the ro-vibrational nature of chiral
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for high impact research. We have internal expertise in (micro)biology, chemistry, materials engineering and ex vivo models, and we have strong collaborators with external academic, industrial and clinical
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process conditions. Explore, adapt, refine, and validate analytical methodologies for FTIR, GC, and OES. Develop and propose original research ideas within the project’s framework. Interact closely with
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reconfigurable manipulation system for aerial robotics applications. Soft robotics manufacturing methods to develop meta-morphic aerostructures. Designing shape-changing control architectures. System integration
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generation of hernia repair meshes with built-in local drug-delivery strategies to enhance post-surgical outcomes. Your tasks Develop novel medical liquid-core fibers for drug-loaded hernia repair meshes