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for applications ranging from magnetoelectronic devices to advanced biomedical systems. A central strength of our group is the development and operation of unique, home-built scanning probe microscopy platforms
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. Empa is a research institution of the ETH Domain. The Laboratory for Biointerfaces performs material-related research and focuses on understanding, characterizing and steering interactions
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of performance for magnetic hyperthermia (MHT), magnetic particle imaging (MPI), and sensing applications. The position offers a unique opportunity to bridge fundamental magnetism, advanced nanofabrication, and
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institution of the ETH Domain. The Laboratory for Biointerfaces performs material-related research and focuses on understanding, characterizing and steering interactions of biomolecules, bacteria and human
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are explored for applications ranging from magnetoelectronic devices to advanced biomedical systems. A central strength of our group is the development and operation of unique, home-built scanning probe
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scalable, cost-effective processes to efficiently remove atmospheric CO2. High-temperature ammonia separation: Creating novel high temperature separation technologies to make ammonia synthesis significantly
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of fluoride and hydrofluoric acid species during battery operation Coupling of the individual online measurement techniques and development of an appropriate control procedure Maintenance of processing and
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development. The project is in close collaboration with a large enterprise and focusses on the development of high-performance materials and materials systems based on, among others, silica aerogel. Key
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in X-ray imaging and microscopy techniques is a big plus. Experienced in project management and writing scientific publications. Fluent in English, German would be a plus, enjoying a multicultural