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-related transport phenomena all require precise knowledge of fluid flow dynamics. Advanced experimental methods such as Particle Image Velocimetry (PIV) and 3D Lagrangian Particle Tracking (LPT) provide
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to provide fundamental insights into bacteria & material interactions and contribute to the creation of next-generation antimicrobial materials with clinical relevance. Your profile The candidate should hold a
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of students Your profile University Master's degree in process engineering, chemical engineering, mechanical engineering or materials science with some (CFD) experience. Good technical knowledge and/or high
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. Empa is a research institution of the ETH Domain. The Nanomaterials in Health Lab is a truly interdisciplinary environment that conduct pioneered investigations in nanomedicine. We are active in: Provide
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truly interdisciplinary environment that conduct pioneered investigations in nanomedicine. We are active in: Provide key contributions to novel personalized strategies of particles design for drug
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. Empa is a research institution of the ETH Domain. We are offering an exciting PhD position at Empa's Laboratory for Air Pollution / Environmental Technology, in collaboration with the University
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of bacterial killing/repelling. The research aims to provide fundamental insights into bacteria & material interactions and contribute to the creation of next-generation antimicrobial materials with clinical
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printing methods. The project is in collaboration with the University Bern. Your tasks Explore commercial and synthesis piezoelectric ceramic powde Explore sintering additives for the cold sintering process
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enrolled as a PhD student at CML Leiden University NL (Prof. Jose M. Mogollón, doctoral advisor). The Institute of Environmental Sciences at CML has ample expertise in prospective LCA, upscaling