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. Empa is a research institution of the ETH Domain. In our research group, we design smart stimuli-responsive (nano)-materials that can be applied as diagnostic tools or as controlled drug delivery systems
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transfer, and materials science to design materials – and scalable methods for their fabrication – that not only store and dispatch thermal energy beyond that of the conventional sensible form but also
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design new methods for producing hydrogen from water that are not only compatible with sustainable heat sources (e.g., concentrated solar radiation) but also scalable by volume. The performance
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environment. Job description Design and synthesis of functional sustainable soft materials Design and fabrication of devices and robots Circular life cycle study This is a full-time position that starts as soon
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of the material and nanostructure extremely important to realize highly tunable and designable optical properties. Your tasks The student will be involved in tasks such as Designing innovative
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key contributions to novel personalized strategies of particles design for drug delivery, imaging, or diagnosis. Characterize, understand, the interaction of particulate materials with cells or tissues
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parameters, which makes engineering of the material and nanostructure extremely important to realize highly tunable and designable optical properties. Job description The student will be involved in tasks
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, environment, society and health as well as health systems and interventions. The Swiss Centre for International Health (SCIH) provides consultancy, project design and ideation, as well as project and grant
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. Empa is a research institution of the ETH Domain. Your tasks Your tasks will focus on the design and operation of experiments to investigate the failure mechanisms in wooden structures. This will require
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in the design, fabrication and characterization of new cavity platforms that allow for a robust and repeatable interfacing of levitated nanoparticles with optical nearfield potentials, enabling new