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environments, as well as chemically and biologically active phases. The goal of the project is to gain fundamental insight into how the structure of these complex materials evolves under working conditions. To
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these theoretical insights with the structure and activity of the clusters, will contribute to the rational design of a novel generation of CO2 photo-reduction catalysts. We wish to hire a joint doctoral student who
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these theoretical insights with the structure and activity of the clusters, will contribute to the rational design of a novel generation of CO2 photo-reduction catalysts. We wish to hire a joint doctoral student who
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integrate your tracking code into a code that maps the three-dimensional distribution of the phases and their structural parameters. You will also help other researchers to integrate your code
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pluripotent stem cells to elucidate the pathogenicity of peripheral neuropathies. Your role will be to investigate the impact of novel therapeutics in the cell models. For this you will apply stem cell and
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pluripotent stem cells to elucidate the pathogenicity of peripheral neuropathies. Your role will be to investigate the impact of novel therapeutics in the cell models. For this you will apply stem cell and
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biology, proteomics, cutting-edge microscopy, structural biology, technology development, and bioinformatics. VIB provides a highly interactive environment and ample training opportunities for its
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quenching dynamics. This fundamental research project will advance the understanding of photosensitizers in electrochemistry. Moreover, it will have a potential impact in novel biosensor technologies