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conditions. For that purpose, Raman spectroscopy-enhanced indentation technique (RS-IT) is being developed at NIST which combined instrumented indentation with Raman spectroscopy to analyze in-situ
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focuses on developing and applying label-free optical imaging technologies to visualize structures and molecular compositions of organelles in cells and to map heterogeneities in tissues to enable
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the use of laser pumping and silicon micromaching. This proejct develops compact magentic sensors than combine high sensitivity and accuracy with vector field readout and manufacturability. We design novel
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. To facilitate recycling, there is a critical need to develop and refine advanced separation methodologies for common fiber blends, such as cotton, polyester, and elastane. Developing methodologies to recover and
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Engineering Laboratory is strived to develop next generation prediction approaches to achieve real-time, numerically efficient, accurate predictions in real fire situations. The candidate will develop novel
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research in high-impact science and engineering fields that utilize vapors, liquids, and aerosols. Our experimental scientists focus on developing fundamental measurements and novel methodologies that can
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quantities for meaningful comparison. We lead the development of innovative standards and novel calibrations to achieve accuracy in localization microscopy [1, 2], with applications ranging from nanoplastic
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reactions related to energy transformation, advanced manufacturing, security, and the environment. Projects focus on the development and application of real-time, in-situ, advanced measurement capabilities
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to develop integrated microfluidic and optofluidic lab-on-a-chip devices that advance the measurement of physical, chemical, or biological phenomena in fluids at the macroscale. Application areas include
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well as updating their own model. Current logical frameworks are not flexible enough to manage the constant schema design changes that arise in healthcare and manufacturing systems. The eventual goal is to develop a