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Position: Bioprinting next generation functional tissues The field of tissue engineering and bioprinting is continually advancing to develop functional tissue models that more accurately mimic native tissue
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lasting for 36 months. SPACER aims to develop new architectures for porous electrodes to improve the power density and energy efficiency of redox flow batteries (RFB), enabling affordable and durable long
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on bacterial biofilms, to start immediately or as per arrangement. The project The research group of Knut Drescher (https://drescherlab.org ) focuses on understanding the development and emergent
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on bacterial biofilms, to start immediately or as per arrangement. The project The research group of Knut Drescher (https://drescherlab.org ) focuses on understanding the development and emergent
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lasting for 36 months. SPACER aims to develop new architectures for porous electrodes to improve the power density and energy efficiency of redox flow batteries (RFB), enabling affordable and durable long
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community. We develop and commercialize simulation tools, as well as measurement equipment for all-in-one electro-optical device characterization and for device stability assessment. Our R&D tools are used
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Your position Stacking and twisting atomically thin materials offers unprecedented control over their nanoscale magnetic, electronic, and optical properties. In this project, we will develop a novel
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Participating in developing a novel imaging technique, low-energy electron holography, which will be applied for atomic-resolution imaging of 2D crystals, such as graphene, and nanocrystalline samples such as
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how perishable biological products, such as vaccines, react inside cold chain unit operations and to pinpoint why some products decay faster. For that purpose, we develop digital twins of the cargo
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single electron spins in diamond as sensors to explore magnetic phenomena at the nanoscale. This doctoral project will center around the development and application of scanning magnetometry at ultra-low