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process control measurements, and utilizing appropriate statistical analyses to understand the assay results and their uncertainties. This process should lead to improvements in the comparability and
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separation, energy converting biological processes, and signal transduction. However, despite their obvious importance, atomic structures have been determined for only a few dozen of these proteins because
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thermal chemical vapor deposition and atomic layer deposition used in nanoelectronics fabrication; the examination of aerosol chemistry and aerosol chemical and physical properties relevant to understanding
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and separation applications. From the crystal structure study, we can understand the fundamental physics and chemistry of these materials, in order to improve their properties for desired applications
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(1) development of nanoscale characterization techniques to measure mechanical, chemical, and rheological properties of microscopic volume elements with nanoscale spatial resolution using atomic force
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process, and for comparing a biosimilar to an innovator reference product. Biological therapeutics is currently characterized by low resolution techniques like CD, gel filtration, and light scattering
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NIST only participates in the February and August reviews. First principles calculations, usually based on density functional theory (DFT), are a crucial aspect of modern materials physics research
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with changes in physical and chemical properties due to artificial ageing. Candidates should have experience with characterization of high strength fibers through techniques such as mechanical testing
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Physical Measurement Laboratory, Quantum Electromagnetics Division opportunity location 50.68.72.B7939 Boulder, CO NIST only participates in the February and August reviews. Advisers name email phone Justin
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be inferred from initial or final state materials property measurements such as sorbent microstructure, but must be measured in situ during the sorption or release process. This project focuses