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) Separations. Job description Within a broader research program that integrates process modelling, computational materials screening and discovery, experimental synthesis, and mechanistic and performance
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: Molecular Thermodynamics Modeling for the Energy Transition The upcoming Molecular Engineering Thermodynamics (MET) Group at ETH Zürich is looking for a doctoral student to develop and improve computational
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for Extreme Environments The Materials Modeling Group (Prof. Malik Wagih), launching February 2026 in the Department of Materials at ETH Zurich, invites applications for PhD positions starting June 2026 or by
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dynamic biochemical processes Support in vivo tests in mouse models and clinical trials Secondments: Imperial College London (UK): Electrochemical sensing strategies University Hospital Zurich (CH): Testing
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of information transmission, derive the theoretical models governing them and demonstrate their intriguing properties experimentally. The practical realizations of these topological metamaterials will be based
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of cardiovascular anatomy and hemodynamics. The research will integrate modern machine learning with MR signal modeling, computational imaging, and fluidmechanis, with the ultimate goal of enabling faster, more
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, plate structures, semantic data models, finite element analysis, and plugin development. The PhD position (full-time) will span 4 years of research and is funded according to standard SNSF regulations
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(e.g., ball milling, high-pressure fracture experiments), magnetic-resonance-based characterization, geochemical analysis, microbial ecology approaches, alongside modeling hydrogen migration and storage
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activity at ETH Zurich in close collaboration with local and international clinical partners. Core research areas include: Design, modeling and performance assessment of medical and surgical robots Dexterous