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microscope. The Mission: The successful candidate will play a central role in advancing multimodal microscopy, including techniques such as multiphoton and optoacoustic microscopy, to investigate novel
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that seamlessly integrates visible-light and mid‑infrared microscopy with cutting-edge quantum techniques. This includes the full workflow from conceptual design and instrument development to performance
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plate array microscope for simultaneous time-lapse video microscopy, enabling high-throughput single-cell analyses of rapidly migrating cells. You will be responsible for Developing new machine learning
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cells Analyze RNA sequencing-based transcriptomic data sets Perform immune-staining with flow cytometry analysis, advanced microscopy techniques (light-sheet microscopy, confocal fluorescence microscopy
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microscopy for probing matter at the atomic scale. Our primary objective is to develop a novel electron phase reconstruction technique based on momentum-resolved scanning transmission electron microscopy
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plate array microscope for simultaneous time-lapse video microscopy, enabling high-throughput single-cell analyses of rapidly migrating cells. You will be responsible for Develop new machine learning
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research. You will strengthen the data science and machine learning activities of IAS-9 by developing core AI methods with applications to electron microscopy and materials discovery. You will work in a team
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via operando liquid-phase transmission electron microscopy (LP-TEM). Your tasks: Self-motivated and independent planning, execution, and analysis of research in the scope of operando electrocatalysis
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single filaments and single droplets to composite networks using techniques such as optical tweezers, fluorescence microscopy and atomic force microscopy. The concrete activities during the project will
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of bacteria are advantageous, as is experience with fluorescence microscopy and bioinformatics. We are looking for highly motivated and team-oriented candidates with a passion for science and excellent written