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for the direct air capture (DAC) of carbon dioxide, and its permanent mineralization or sequestration through appropriate carbonation processes. Development of these technologies is critical to meet U.S. energy
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involved in molecular destabilization mechanisms provide data for systematically formulating biopharmaceuticals on the basis of inhibiting specific destabilization pathways. We are developing methods
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-ray energy-dispersive spectroscopy (XEDS) spectral images integrated over thousands of frames with "on the fly" drift correction. We seek a creative researcher to work with us to develop and apply
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nontrivial limitations in obtaining reliable, rapid measurements that are sensitive to HOS. We develop advanced vibrational spectroscopic techniques that are more sensitive to structured molecular backbones
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identification. A Two-Dimensional (2D) and Three-Dimensional (3D) Topography Measurement and Correlation System was developed at NIST for certification of Standard Reference Material (SRM) 2460/2461 Bullets and
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electromagnetic properties of materials, (2) to establish a metrology approach for characterizing materials and components at frequencies beyond current techniques, and (3) to develop a high-throughput technique to
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diagnoses and correct treatment, molecular diagnostic methods must be consistent, accurate, and reliable. The Applied Genetics Group works to develop standards for molecular diagnostics (such as viral
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biomolecules have been hampered by a lack of robust and quantitative measurement techniques, particularly when available fluid volumes are limited. To address these issues, we have developed accurate
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over an extended time range (up to nano or even microseconds). Modeling atomistic processes over such an extended time range is a formidable task for conventional molecular dynamics. We have developed a