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spin dynamic simulations are available to develop approaches compatible with industrial environments. Applications in topic areas can be broad reaching with examples (but not limited to): energy
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Sorbent materials are candidates for many industrial and sustainable development applications, including carbon capture, hydrogen and methane storage, gas separation and purification, and catalysis. However
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the applied to the fundamental, covering such areas as understanding the evolution of the microstructure of nitride semiconductors; development of nanotemplates for patterned growth of nanowires; optimization
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NIST only participates in the February and August reviews. Fundamental questions in astrophysics and remote sensing rely on accurate radiometry. NIST is at the forefront of developing methods
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are developing new methods for characterizing the structure and dynamics of the interface and interphase regions in carbon-based nanocomposite materials and in the overall conductive properties of these polymer
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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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provides the thermochemical foundation for new noninvasive breath analysis techniques. Law enforcement applications include the development of breath analysis devices for the quantitative measurement of drug
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are developing object-oriented computational tools for the analysis of materials with complex microstructures. Starting from a digitized micrograph, the program identifies features in the image, assigns material
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-optical-frequency combs and room-temperature multi-heterodyne detection are under development to enhance sensitivity across the region from 0.05 to 2 THz. In other research areas, chirped pulse THz
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are developing microfluidics to measure material properties and structure. Protein, polymer and surfactant solutions and suspensions and emulsions are being characterized using computer-controlled microfluidic