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Computational Methods for NMR Structural Biology and Biomanufacturing of Protein and Live Cell Therapeutics NIST only participates in the February and August reviews. Protein therapeutics
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engineering disciplines such as fluid mechanics, heat transfer, dynamics and system controls, optics, metrology, and data science. Measuring the various dynamic physical phenomena during the fabrication
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disease diagnostics—e.g., cancer, neurodegeneration, osteoporosis—as well as in deciphering the underlying mechanisms of such diseases.Although there is enormous potential of this field in adding valuable
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-mechanical processing. Some of these modeling tools include density functional theory (DFT), CALPHAD-based models, phase-field models, and finite-element models (FEM) to predict as-built microsegregation
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mechanisms, micro- and nanofabrication techniques, as well as, more generally, new applications of magnetics-based nanotechnology to biomedicine. Depending on chosen research direction, there may be
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. Successful industrialization of these new sintering technologies requires a thorough understanding of their underlying physical mechanisms, which is still incomplete. This NRC opportunity complements
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, robotics), cyberinfrastructure (e.g., databases, high-performance computing, collaboration tools), and humans (e.g., scientists, engineers, students, managers). The recent interest in Explainable AI (XAI
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202 578 8353 Edwin Pak-Nin Chan edwin.chan@nist.gov 301.975.5228 Sara Orski sara.orski@nist.gov 301 975 4671 Description Understanding the structure and mechanical properties of polymer networks is
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Robotic Systems for Smart Manufacturing Program is developing the measurement science needed to enable manufacturers to characterize and understand the performance of robotics systems within
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RAP opportunity at National Institute of Standards and Technology NIST Applied Mathematics of Soft, Fluid, and Active Matter Location Information Technology Laboratory, Applied and Computational