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friendly catalysts and substrates. We use NMR spectroscopy for serendipitous discoveries and unbiased characterizations of molecules, their conversion, and their interactions in complex systems. Solvent
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with companies and public authorities. Our research aims at strengthening welfare, productivity and sustainability. A key element is the role of technology and its interaction with industry and
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cooperation with companies and public authorities. Our research aims at strengthening welfare, productivity and sustainability. A key element is the role of technology and its interaction with industry and
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of the interactions between light and materials. In particular, we explore functions, underlying photophysics and photochemistry of fluorescent molecular materials and semiconductor nanomaterials. We develop
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properties of the electrodes will enhance interaction with bacteria and facilitate electron transfer. Here, we will focus on design and fabrication of 3D carbon electrodes, which can provide excellent
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experiments and analysing data. Design and perform cultivation in bioreactors. Writing peer-reviewed scientific publications. Actively interacting and collaborating with other partners involved in the project
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functions of single nanoparticles as well of ensembles with varying number of nanoparticles. Advancing the understanding of corporative interactions in nanoparticle catalysis, including ensemble-averaging
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database experts to access and interpret datasets. Conduct statistical modeling of fish distribution and habitat interactions. Interpreting results in the context of fish ecology, marine conservation and
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sustainability within society. A key element is the role of technology and its interaction with industry and individuals. The department is divided into four divisions: Technology & Business Studies, Management
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-small silicon nanocavities [Babar2023, Rosiek2023] with extreme light-matter interactions. We aim to combine fundamental theory, device design, and our unrivalled capabilities in high-resolution silicon