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components and nucleic acids interact and self-assemble. Apply data analysis and modeling to deepen understanding of nanoparticle architectures, and contribute to standardization-relevant method development
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design, synthesize, and characterize hydrogel-ceramic nanocomposites and architectured metamaterials for bone replacement. During the course of the project, you will work in a multidisciplinary team
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of 1D moiré systems to develop novel device architectures to advance our understanding of strongly correlated quantum systems. The central goal is to fabricate quantum devices hosting heterostructures
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. Empa is a research institution of the ETH Domain. The Urban Energy Systems Laboratory (UESL) pioneers strategies, solutions, and methods to support the development of sustainable, resilient, and
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with our team of experienced scientists, postdocs and PhD students, you will develop materials that contribute to the development of the next generation of sustainable biocomposite materials. This project is
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who are interested in innovative, sustainable and meaningful activities - that's what counts. DavidHeusser, Bereichspersonalleiter / HR Partner
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that the generated knowledge will advance the field of sustainable material technologies and contribute to new developments within advanced manufacturing, biopolymers, surface and interface science and biomedical
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or sprayable emulsions. We envision that the generated knowledge will advance the field of bio-based and sustainable material technologies and contribute to new developments of biopolymer hydrogels
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at Empa in Dübendorf drives innovations in joining technologies and corrosion management to enable evolution towards increasingly efficient, reliable and sustainable material technologies. Joining
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welcome all people who are interested in innovative, sustainable and meaningful activities - that's what counts. SarahStüdli, Bereichspersonalleiterin / HR Partner