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benchmarks for genome sequencing methods [1]. In addition, these cell lines have been used as a well-characterized background DNA in over 50 commercial products. These cell lines, as well as induced
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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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measurement traceability to the SI (unit Bq) by expanding on traditional gas counting capabilities and developing new methods to meet outstanding challenges. In particular, we seek to develop absolute assay
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RAP opportunity at National Institute of Standards and Technology NIST MEMS-Based Scanning Probe Microscopy Location Physical Measurement Laboratory, Engineering Physics Division opportunity location 50.68.31.B7380 Gaithersburg, MD NIST only participates in the February and August...
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of improved methods to measure infrared radiation from space to meet the increasingly stringent requirements for climate research and weather forecasting; (2) the realization of new infrared radiometry primary
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of multiscale methods to measure how the marcoscopic behavior of novel graphene devices arises from the microscopic distribution of nanoscale properties involves multiple NIST research efforts linking STM, STS
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NIST only participates in the February and August reviews. The development of nanomaterials, biomaterials, sensor films, and surface measurement methods require well-defined substrates that vary in
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imaging and analysis methods, as well as collaborative efforts with other NIST laboratories for image processing and 3D visualization methods. key words Electron microscopy; Confocal microscopy
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ionization MS, and/or related approaches) and complementary methods for the characterization of micro- and nanoplastics (MNPs). Analytical approaches for the measurement of MNPs from complex matrices will take
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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