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extractions; mass spectrometry; and capillary electrophoresis. Other forensic-related applications of these techniques to the development of methods and/or standards are encouraged. key words Chromatography
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Description We are using innovative processing to develop novel superconducting materials with enhanced properties for quantum circuit applications. Critical elements for development of these materials
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, (2) interpretation of experimental spectra, (3) development of semi-empirical methods, (4) studies of reactivity indices, (5) computational electrochemistry, and (6) chemical informatics. The explosion
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and cannabis-containing commercial products. The tools developed by this program help support the development of fit-for-purpose analytical methodologies for measuring cannabinoids (e.g., Δ9-THC, CBD
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Obrzut jan.obrzut@nist.gov 301.975.6845 Christopher L. Soles christopher.soles@nist.gov 301.975.8087 Description This research is focused on the development and use of cellulose nanocrystals (CNC) in
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, are promising emerging manufacturing technologies for producing complex and highly-customized parts. These processes have been in development over the past 15+ years and their capabilities have grown
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and data-driven models [2, 3]. Metric Identification: Identifying key quality metrics for various "digital objects" throughout the ICME development lifecycle. Uncertainty Quantification & Propagation
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related botanical materials. Research topics include (1) development of liquid chromatographic (LC) separations of plant constituents, with detection by absorbance, fluorescence, electrochemical, and/or
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properties. While our focus is on industrially important fluids, such as fuels and refrigerants, we also welcome proposals that would yield data primarily intended for model development, such as studies
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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