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remains limited, with numerous fabrication challenges yet to be addressed. This proposal aims to bridge the gap in current medical implant technology by designing, fabricating, and testing biomimetic
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approach to (1) better understand and steer refrigeration processes or packaging design by optimizing for product quality loss and waste, and (2) connect the improved quality preservation from digital twins
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imperative to develop alternative highly efficient treatments and improve wound management. In the Wound Booster initiative, we will design a precision, self-care integrated system to completely understand
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. This project will center on high-entropy oxides, a promising class of catalysts, to help transform CO2 into valuable hydrocarbons. The work is part of a broader initiative aimed at advancing materials
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. Empa is a research institution of the ETH Domain. The Urban Energy Systems Laboratory develops methods and tools to model, design and assess energy systems at various scales with a focus on energy hubs
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. Together with our team of experienced scientists, postdocs and PhD students, you will develop materials that contribute to the development of the next generation of advanced hydrogels for wound care
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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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. 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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materials and devices based on nanoscale surface effects, utilizing a combination of experimental and computational approaches. We are looking for a highly motivated PhD candidate fascinated by quantum