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. AM research is inherently multi-disciplinary, and our team collaborates with leading researchers and technical experts throughout NIST and beyond to realize the full spectrum of techniques for AM and
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device-related quantities such as the external radiative efficiency can be obtained for every pixel of an image. Temperature dependent hyperspectral imaging work on III-V solar cells is currently being
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shannon.hoogerheide@nist.gov 301.975.8582 Hans Pieter Mumm pieter@nist.gov 301.975.8355 Jeffrey Scott Nico jeffrey.nico@nist.gov 301.975.4663 Description Neutron beta-decay is an excellent “laboratory” for studying
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Laboratory, Materials and Structural Systems Division opportunity location 50.73.11.C0581 Gaithersburg, MD NIST only participates in the February and August reviews. Advisers name email phone Li-Piin Sung
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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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product authenticity or adulteration. The goal of NIST’s ongoing effort with dietary supplements is to provide tools to the dietary supplement industry and measurement communities that will lead to improved
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resulting in persistent microscopic and nanoscale particles that can enter the food chain. There is a growing public awareness of the potential risks associated with these materials and an increasing focus
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fingerprints for characterization of commercial product authenticity or adulteration. The goal of NIST’s ongoing effort with cannabis products is to provide reference materials and standards for use by cannabis
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of viral adventitious agents. Next-generation sequencing offers the potential for nontargeted detection and rapid turnaround time. The Applied Genetics Group is investigating potential standards and methods