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of prototype battery cells are all parts of the project. The project also involves a number of materials characterization techniques (spectroscopy, structural characterization) and electrochemical
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modalities, and subsequent study of the effects on biological systems. The group has full access to state-of-the-art laboratories for in vitro, ex vivo and in vivo biological system read-outs including imaging
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: Fluorescence microscopy and image analysis Expertise in cell culture and molecular biology techniques Experience with additive manufacturing (3D-printing) technology Knowledge of microbiology and cancer cell
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or white light interferometry Microscopy and image analysis (e.g., SEM, fluorescence microscopy) Antimicrobial testing or microbiology techniques Cell biology and molecular biology techniques (e.g., qPCR
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for multimodal machine learning, combining large-scale image data with molecular profiling and clinical data. This includes, for instance, research on deep learning-based image analysis and data assimilation
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methods for single cell analysis and mass spectrometry imaging using direct infusion mass spectrometry. The PhD candidate will work with and develop custom made techniques coupled to high resolving mass
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picture of reaction intermediates in photocatalysis. You will be involved in all steps of the project, i.e. to design and program the software, to perform computational and real-world experiments