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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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quantitative imaging biology. You will develop novel ways of analysing complex data (e.g. 3D volumetric STED) that will enable wider scientific discoveries and advance our understanding of biology. You will also
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National Mass Spectrometry Platform for Proteomics and Biomolecular Imaging’ (PLATO), which provides a highly international, collaborative, ambitious and innovative research environment in mass spectrometry
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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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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
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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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. The Postdoctoral scholar will lead design, fabrication, characterization, and analysis of novel 3D nanophotonic devices for focusing and imaging. The ideal candidate would hold a doctoral degree in physical science
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devices and microsensors, heterogeneous integration/3D packaging, and other broad areas of semiconductor/microelectronics. Responsibilities: Nanofabrication in the cleanroom and characterization/measurement
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for such models include high-resolution 3D imaging, time-resolved materials characterization, and atomic structure determination. Scientific instrument data is often multimodal in nature and developing DL models