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, and complete products of combustion) will be performed. Comprehensive data sets of this type have not been previously reported for full-scale enclosure fires. The chemical data will be augmented by
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on the design and fabrication of prototype nanostructure electronic devices such as FinFETs for applications in high power electronics. We welcome proposals aimed at new technological aspects of semiconductor
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laser-assisted field evaporation because nearly all materials of interest absorb rather uniformly in the EUV. Moreover, the (generally high) EUV photoionization cross sections exhibited across
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such as dielectrics, ferroelectrics, multiferroics, electro-acoustics, and high-temperature superconductors. Broadband impedance measurements; Electronic materials; Impedance spectroscopy; Thin-film
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accurate measurements during emergencies, such as those encountered in pre- or post-detonation scenarios. The nuclear forensics program at NIST focuses largely on analytical method development, new and
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include particle characterization (including protein aggregates) for biotherapeutics, and cell viability measurements for cell-based therapies and cell-based biomanfacturing. A key method is to perform
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our understanding of the fundamental limitations of detectors and sources; development of new ways to package detectors, sources, and components optimized for few photon operation; and developing new
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for, measurements performed using current-generation Microwave Microfluidics devices. References: A. C. Stelson et al., “Measuring ion-pairing and hydration in variable charge supramolecular cages with microwave
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of the difficulty of producing membrane protein crystals of the quality required for high-resolution x-ray or neutron diffraction studies. Numerous approaches involving surfactant-based systems exploiting
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gauge [1]. Based on a grating MOT of lithium [2, 3], our gauge delivers a zero-chain traceable measurement of vacuum down into the extreme-high vacuum regime (<1e-12 torr). While now theoretically