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Field
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will develop a fast, simple, and robust 3D and multicolor MINFLUX microscope with highest performance as open source. Access to MINFLUX microscopy is limited by the cost of commercial and the difficulty
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associated with the ‘Biomedical Mass Spectrometry and Systems Biology research unit’ at BMB and the ‘Danish National Mass Spectrometry Platform for Proteomics and Biomolecular Imaging’ (PLATO), which provides
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aerospace research. 3. Perform complex techniques or procedures including but not limited to: a. Utilizing confocal, fluorescence and live microscopy to image tissue and cells. b. ELISA, mass spectrometry
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, second and third cycles of studies Optical and mechanical design, raytracing, CAD and 3D printing. Multivariate calibration of hyperspectral instrumentation. Planning and conducting lidar field campaigns
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computed tomography (XCT) imaging of a variety of specimen types including irradiated fuel samples, analyzing the generated 3D XCT datasets to identify and quantify features of interest, and interacting with
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), and 3) developing digital 3D atlases and various neuroinformatics tools. We utilize high-resolution 3D imaging tools (e.g., light sheet fluorescent microscopy) and computational approaches to examine
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integrate high-dimensional multimodal datasets, including scRNA-seq, spatial proteomics, spatial transcriptomics, and drug imaging of clinical specimens, and (2) developing 3D spatial multi-omics technologies
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static and dynamic 3D reconstruction, semantic scene understanding, and generative models for photo-realistic image / video synthesis. Overall, the main focus is on high-impact research with the aim
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antifungal target, as the CW disruption leads to fungal death. The CW of Candida yeasts is a 3D layered structure, composed of mannoproteins as well as other polysaccharides (β-1,3-glucan, β-1,6-glucan and
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source for EIC and the design of the ePIC Barrel Imaging Calorimeter. Argonne National Laboratory, situated near Chicago, is a prominent multidisciplinary science and engineering research center. We are