297 web-programmer-developer-"https:"-"https:"-"https:"-"UCL"-"UCL" positions at NIST
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that can be integrated into the research workflows used in developing new materials (e.g., carbon nanotubes) or in determining disease pathologies (e.g., Alzheimer’s disease). We want to explore solutions
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their processes. Smart machine tools assess and predict their health and the performance of their processes in real time to optimize production quality and yield. Proposals are welcome to develop
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the measurement of infrared radiation for applications to remote sensing, fundamental metrology, process monitoring, homeland security, defense, and biomedical areas. Specific interests include (1) the development
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Description Our group is developing chip-scale nonlinear optical devices based on dispersion engineered waveguides in a variety of materials including silicon, silicon nitride, and AlGaAs. A major thrust for
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topics include 1) the development of measurement methods and techniques to collect, sample, and characterize release material from nanocomposites under various use scenarios to aid downstream hazard
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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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cell is alive or dead, is a critical and challenging measurement. Our goal is to develop advanced methods for rapidly, accurately and quantitatively measuring the viability of mixed microbial populations
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. Opportunities exist for (1) developing a framework for design of buildings and infrastructure systems to meet recovery-based objectives (functional recovery framework), (2) developing design criteria
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(e.g., thermogravimetric analysis, differential scanning calorimetry, and dynamic mechanical analysis, etc.), (5) developing mechanical test methods for samples (at small and structural-level scales
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using novel analytical approaches. Specifically, this research will focus on (1) development of laboratory methods to produce controlled-size micro- and nanoplastics; (2) development of field-flow