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have access to advanced core technologies in e.g. cell imaging, FACS, cell sorting, confocal microscopy, animal studies, antibody generation, and biosensors. Close collaboration with Odense University
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education to enable regions to expand quickly and sustainably. In fact, the future is made here. Description of work You will be working in the laboratory of Marta Bally (https://ballylab.com
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. The defects will be analysed by using a combination of advanced transmission electron microscopy and spectroscopy methods, as well as Raman spectroscopy and photoluminescence mapping. Your key tasks
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website for more information about our research interests: https://krupina.lab.uiowa.edu This position is designed for individuals who: • Seek training, experience, and mentoring in a research setting
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core technology platforms, including cryo-electron microscopy, mass spectrometry, flow cytometry, light microscopy, genomics, metabolism, bioinformatics, and high-throughput screening. SLS is a
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instead use live microscopy and automated image analysis to individually study the behaviour of thousands of cells. This single cell approach will allow us to resolve key checkpoints in the germination
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for probing the mechanical and dynamical properties of biological and nanoscale systems. The successful candidate will have a strong background in ultrafast spectroscopy, time-resolved optical microscopy
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role in establishing the University Research Facility in Materials Characterization and Device Fabrication, which includes a Materials Research Centre, a Centre for Electron Microscopy, an Atomic
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, etc.). We use a variety of techniques such as confocal microscopy, single cell RNAseq, spatial transcriptomics, mouse genetics, and behavior to address how microglia modify synapses and, in turn, how
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other applications of microfabricated circuits, transducers and systems. The group [https://www.nist.gov/pml/microsystems-and-nanotechnology-division/photonics-and-optomechanics-group ] offers a highly