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and biophysical cues of the natural cellular microenvironment. We apply these biomaterials in cell behavior regulation, cell therapy, and tissue regeneration, aiming to advance biomedical innovations
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innovative solutions to human health challenges. Since its establishment in 2006, the GIBH has made significant contributions to the research fields of stem cell biology, cell fate determination and lineage
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diabetes. The successful applicant will develop cell-based model systems such as human stem cell-derived beta cells, using single cell genomic read-outs, and will explore poorly understood genome regulatory
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into the brain with unprecedented efficiency and selectivity. Key Responsibilities Develop high-throughput screening cell-based BBB models. Utilize advanced molecular biology, proteomics and microscopy to study
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that are able to operate a step beyond the commercial state of the art. The candidate will be working on exploring the connectivity and plasticity properties of Working Memory - engrams by combining single-cell
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electronic engineering, physics, chemistry, materials science, nanotechnology, or closely related discipline. Good publication record. Experience in thin film or/and solar cell fabrication by solution
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, chemistry, materials science, nanotechnology, or closely related discipline. Professional Experience: Good publication record. Experience in thin film or/and solar cell fabrication by solution processing
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and characterization of novel catalysts, and their implementation into nanostructured electrodes within flow cell- and MEA-based reactors. The candidate will work together with other group members and
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magnetometers. We work with a variety of international partners, including industrial leaders in biomagnetic instrumentation, in vapor cell miniaturization, and in laser development for atomic sensors. We also