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Engineering. The successful candidate will conduct cutting-edge research in applied and environmental microbiology, with a focus on the ecology of methane-oxidizing bacteria. These microbes play a central role
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integrated in a removable smart denture. The project targets the integration an advanced micro-system comprising sensors, micro-fluidics, and a sophisticated drug delivery system. The complex 3D printed
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probe microscopy. Our research focuses on using single electron spins in diamond as sensors to explore magnetic phenomena at the nanoscale. This doctoral project will center around the development and
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, based on measured air temperature and humidity data in cold chains by commercial sensors, and deploy them in end-to-end virtual supply chains. This project also aims to optimize other thermal processes
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some products decay faster. For that purpose, we develop digital twins of the cargo, based on measured air temperature and humidity data in cold chains by commercial sensors, and deploy them in end
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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
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temperature and humidity data in cold chains by commercial sensors, and deploy them in end-to-end virtual supply chains. This project also aims to better understand the tradeoffs related to cooling technology
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, greenhouse gas emissions must be reduced as much as possible across all sectors. However, in certain industries—such as cement production and waste incineration—some emissions are unavoidable. These residual
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microbiology – from the global to the microscopic scale. We focus on microorganisms that use ancient metabolic pathways to convert the greenhouse gases carbon dioxide and methane. Using approaches from
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xenon flash lamp. Over the last years, we have successfully applied FLA to crystallize thin films of TCOs (In2O3, In-Zn-Ga-O), refractory ceramics (Al2O3), and Li-based cathodes (LCO, LMO). Within