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Description Research opportunities are available to develop and advance measurement methods required for current and future semiconductor manufacturing processes. Areas of particular interest include
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quantum computing. Their dimensions range from a few to several hundred nanometers. There is special interest in color centers in nanodiamonds, which give them unique photonic and spin characteristics
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of short tandem repeat (STR) markers by capillary electrophoresis and next-generation sequencing, mitochondrial genome sequencing, deconvolution of DNA mixtures using software and lab-based methods, rapid
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RAP opportunity at National Institute of Standards and Technology NIST Modeling Complex Microstructures Location Information Technology Laboratory, Applied and Computational Mathematics Division
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the phase space inhabited by complex macromolecules and blends, nano/microplastics, nanoparticles, and carbohydrates. This will be done primarily using size-based separation methods such as SEC, AF4, and HF5
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measurement methods need to be developed to evaluate the filler/nanoparticle polymer interface. The rich interfacial functionality present in new nanofibers based on cellulose and chitin, provide for stress
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, leading to significant differences between methods. NIST has world-class facilities in neutron, magnetic, X-ray, and electron techniques to investigate these methods; compare between different methods; and
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devices, coatings, food-related materials, and personal care. Work emphasizes the development of analytical methods for quantitative measurement of engineered nanoparticle properties, including bulk and
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powders and the final parts, a lack of understanding of the process physics and methods to control them, poor surface quality and part accuracy, and limitations in fabrication speed or throughput. We
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for neutron scattering, to study membrane-associated proteins. We are interested in chemistries for new measurement platforms; protein synthesis and diagnostics; simulation methods to compare to experimental