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jason.widegren@nist.gov 303.497.5207 Description https://www.nist.gov/programs-projects/electric-acoustic-spectroscopy-intermolecular-interactions-solution#OnChip NIST’s Material Measurement Laboratory (MML) and
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, and Jason Widegren https://www.nist.gov/programs-projects/electric-acoustic-spectroscopy-intermolecular-interactions-solution#OnChip NIST’s Material Measurement Laboratory (MML) and Communications
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parameter space challenging due to the sheer number of possible compositions. To enable rational design of these materials, we have developed a highly adaptable sample environment that can be programmed
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center. Applicants are expected to be skilled in one of the programming language such as C++/C, Perl, Matlab, or R, and have majored in Chemistry, Statistics, or Computer Science. Reference Yang X, et al
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301.975.6662 Description An experimental and modeling program is underway to further the understanding of dynamic processes that occur in fires and to reduce the impact of fire on people, property, and the
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://www.nist.gov/programs-projects/engineered-fire-safe-products. Char Oxidation; Fire Dynamics; Fire Modeling; Fire Testing; Heat Transfer; Ignition; Material Flammability; Material Property Determination
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, providing a direct measurement of an organism’s phenotype. At the Hollings Marine Laboratory (HML) in Charleston, SC, we employ metabolomics (and plan to incorporate lipidomics) as a useful technique to
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. We are fabricating and measuring solid state implementations of atomically precise devices with applications to quantum computing and analog quantum simulation. The research plan includes the use
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learning, the Group creates living measurement systems, such as cells, engineered to sense and respond in programmed ways. Importantly, building these systems both requires and advances meaningful