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the synthesis-process-structure-property relationship for quantum solid state materials. References: Liang, et al., 2025. Real-time experiment-theory closed-loop interaction for autonomous materials science
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the measurement of infrared radiation for applications to remote sensing, fundamental metrology, process monitoring, homeland security, defense, and biomedical areas. Specific interests include (1) the development
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of aqueous chemical models, incorporated into computer codes, for both pure and applied research that include industrial chemistry, chemical engineering, water treatment, hydrometallurgy, toxicology, medical
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are often destructive, insufficient in resolution and sensitivity, and are subject to bias inherent in the measurement process. New methods for quantitative, in situ characterization are essential for gaining
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concerns the investigation of the magnetic properties of alloys and their relationship to metallurgical structures and processing variables. Computer-controlled equipment is available for alternating-current
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; and (2) experiments devoted to studies of quantum-state engineering and entanglement with application to quantum-information processing, quantum simulation, spectroscopy, and tests of quantum mechanics
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been largely limited due to the inability to systematically control polymer sequence especially under real-world conditions where process history, crystallization, and degradation cannot be neglected
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301.975.4579 Description As the demand for high resolution, high content imaging increases, the cost and challenges of acquiring, storing, processing, and analyzing today’s very large imaging data sets are even
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formation, and dynamical surface processes occurring during vapor/gas phase chemical processes. Available resources include chemical vapor and atomic layer deposition systems with optical diagnostic tools
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assessment; 2) method development to evaluate long term particulate and VOC emission during additive manufacturing process to support robust hazard assessment and development of safe methodology for the use