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conversion. Our research is at the interface between fundamental quantum physics, thermodynamics, nanotechnology, and nanofabrication. Project background This project aims to harness the remarkable properties
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experimental findings and to identify the optimum FLA parameters for a given material with minimum iterations. The promising materials will be integrated into thin-film battery devices. Your profile MSc in
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Engineering Experience in measuring and understanding mechanical properties of materials Enthusiasm for designing and operating experimental setups Highly motivated to work in an interdisciplinary group Some
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Master’s degree in Chemistry, Physics, Biophysics, Materials Science, or a related field. Strong interest or background in soft matter, self-assembly, or nanoparticle systems (e.g., lipid- or polymer-based
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. Empa is a research institution of the ETH Domain. Empa's Laboratory of Biomimetic Membranes and Textiles is a pioneer in physics-based modeling at multiple scales. We bridge the virtual to the real world
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for biomedical applications. Your tasks Study the joint assembly of biopolymer in compartmentalized or bulk hydrogels. Characterize the resulting physical hydrogel properties as well as how these properties can be
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chemical and physical surface functionalization. The goal of the PhD project is to investigate how enzymes can be encapsulated in biocomposites to control both the assembly or crosslinking of biopolymers as
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-ceramic composites in close collaboration with a PhD student at the Biomaterials Engineering Group at ETHZ and the identification of process-structure-property relationships enabling the efficient design