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Description In recent years, there have been significant efforts to develop magnetic nanoparticles for biomedical applications. This has included work in magnetic resonance imaging (MRI), hyperthermia
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are conducted throughout the manufacturing process of cell-based products and also serve as release criteria. Unfortunately, common measures of cell viability including dye-exclusion, often do not correlate
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patterning. Techniques such as quantitative fluorescence microscopy, time lapse imaging, image analysis, gene reporter cell lines, and flow cytometry will be used to monitor culture heterogeneity, consistency
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NIST only participates in the February and August reviews. As of today, there is a plethora of cyber-physical instruments consisting of physical sensing (e.g., microscopy imaging) and cyber (digital
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compared to powder bed fusion technologies. The goal of this research opportunity is to develop new methods for their integration into machine, process, or part qualification and providing benchmarking
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Digital Image Correlation (DIC) to study the non-equilibrium dynamic response of soft polymers and to explore non-uniaxial stress and strain states by testing novel sample geometries that otherwise could
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approval, we seek to develop methods to measure local stress states in benchmark constriction-flow geometries that lead to blood damage. For example, we seek improvements in flow-field imaging, flow
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imaging modalities (3D methods), combinatorial/high-throughput methods, omics approaches, multivariate analyses and animal models (with collaborators at NIH). Emphasis will be placed on 3D imaging and
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distribution of nanomaterials, and to study the fate of nanomaterials in the environment or in biological systems. key words Buckeyballs; Compositional imaging; Metals in nanomaterials; Nanomaterials
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inertial navigation, medical imaging, and all-optical sensor networks. We are also interested in integrated cavity optomechanical devices that have sufficiently low optical and mechanical loss