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semiconductor nanoparticles, dopant based quantum devices in Si, and complex nanosystems made from these structures. Generation, control, guiding, and manipulation of photons on the nanoscale with these systems
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NIST only participates in the February and August reviews. This research opportunity centers on advancing experimental measurement methods to quantify complexes formed between charge-altering
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digital models through an additive process. AM enables the rapid production of complex parts with minimal lead time, fewer constraints, and reduced assembly requirements. This makes it an attractive option
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RAP opportunity at National Institute of Standards and Technology NIST Microfluidics for Characterization of Complex Fluids Location Material Measurement Laboratory, Materials Science and
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NIST only participates in the February and August reviews. Modeling and simulation of equilibrium properties and dynamic phenomena in soft materials such as polymers, colloids, and complex fluids
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-to illuminate the structural transformations that occur across phases. The optical characterization of biological molecules using vibrational spectroscopy supplies critical, detailed structural information
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RAP opportunity at National Institute of Standards and Technology NIST Model Polyelectrolyte Solutions and Complexes Location Material Measurement Laboratory, Materials Science and Engineering
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RAP opportunity at National Institute of Standards and Technology NIST Characterization of Complex Colloids via Analytical Ultracentrifugation Location Material Measurement Laboratory, Materials
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allow reconstruction of challenging structural changes and complex regions like the MHC that are implicated in inherited diseases and are common in cancer genomes. Human genome benchmark assemblies
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@nist.gov 303 497 5530 Nikolas Wilson Hrabe nik.hrabe@nist.gov 303.497.3424 Description Additive manufacturing (AM) is a transformational technology for fabricating complex metallic shapes directly from 3-D