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scattering is routinely used to study solutions and surface adsorption of biomacromolecules. Neutrons are particularly well suited to study biological materials because of their sensitivity to light
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electronics. New materials are continually being developed for electronic applications, and accurate measurements of the electromagnetic properties of these often complex new materials is critical both
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scaled up to handle large numbers of samples in massively parallel, low-cost analysis systems. Before such systems can be realized, the electromagnetic response of biochemical samples must be understood in
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of expansion and the completeness of differentiation is important to both efficient manufacturing and to product safety. Time-lapse microscopy of living cells allows the quantification of changes in dynamic
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NIST only participates in the February and August reviews. This project’s focus is to develop light-scattering nanoscopy methods for rapid, multi-attribute characterization of nanoparticles
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mechanistic investigations benefit from experimental and theoretical studies on model sample systems consisting of crystalline samples, ordered ultrathin films, or appropriately assembled biomolecules
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RAP opportunity at National Institute of Standards and Technology NIST Mass Spectrometry and Chemometrics for Forensic Science Location Material Measurement Laboratory, Materials Measurement
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frequency collective motions of biomolecular systems. These collective modes characterize the incipient motions for the large-scale conformational changes along the torsional coordinates responsible
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]. Similar extensively characterized benchmark cell lines and DNA are needed to benchmark somatic variant detection in tumors. This project would involve working with a unique group of technology and
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RAP opportunity at National Institute of Standards and Technology NIST Fire Dynamics and Fire Protection Engineering Location Engineering Laboratory, Fire Research Division opportunity location