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Development of Methods for High-Accuracy Measurements in Complex Chemical and Biological Samples NIST only participates in the February and August reviews. The Chemical Sciences Division seeks
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are developing high order integral equation methods and numerical tools for computational electromagnetics. This research focuses on the frequency domain electromagnetic field solvers that involve automatic
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RAP opportunity at National Institute of Standards and Technology NIST Complex Systems and Networks: Performance, Control, and Security Location Information Technology Laboratory, Applied and
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NIST only participates in the February and August reviews. The Community Resilience Program (https://www.nist.gov/community-resilience ) is developing science-based tools to assess resilience and
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RAP opportunity at National Institute of Standards and Technology NIST Colloidal Phase Behavior of Carbon Nanotubes under High Concentrations of Polymers and Salts Location Material Measurement
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RAP opportunity at National Institute of Standards and Technology NIST High-Accuracy Measurements on Complex Mixtures with NMR Spectroscopy: Applications to Refrigeration, Forensic Science
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ferroelectrics, thermoelectrics, and nanomaterials. Computational modeling approaches include high-throughput computation (see jarvis.nist.gov), predictive tight-binding analysis (see github.com/usnistgov
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for the high-throughput simulation of adsorption isotherms in nanoporous solids. References Cockayne E, Wong-Ng W, Chen YS, Culp JT, Allen AJ: Density Functional Theory Study of the Structure of the Pillared
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browsing capabilities. A small subset of project relevant publications is listed below. Requirements:A candidate should have at least a master’s degree in computer science or related fields (PhD is preferred
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) to develop a high-throughput technique to screen new materials for high frequency performance. As a first step, the Associate will focus on ferroelectric materials and transition metal dichalcogenides