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structure-property relationships for polymers has been largely limited due to the inability to systematically control polymer sequence especially under real-world conditions where process history
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-ray detector developed at NIST offers abundant opportunities to conduct new experiments in chemistry and physics. Its high energy resolution should allow us to observe changes in oxidation state as a
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be inferred from initial or final state materials property measurements such as sorbent microstructure, but must be measured in situ during the sorption or release process. This project focuses
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knowledge and experience with material science, chemistry or physics. References Lin Y; Okoro CA.; Ahn JJ; et al: Broadband Microwave-Based Metrology Platform Development: Demonstration of In-Situ Failure
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for critical applications that require qualification and certification—increasingly require that computational models and in-situ monitoring of such processes be experimentally validated under highly controlled
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the existence of underlying physics. This project seeks to incorporate physical laws and domain knowledge into machine learning to improve performance with regards to small datasets, extrapolation and
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. Chemical engineers constantly need reliable property data for process design development and optimization. This information is predominantly coming from scientific publications. Thousands of papers
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Computational Mathematics Division opportunity location 50.77.11.C0256 Gaithersburg, MD NIST only participates in the February and August reviews. Advisers name email phone Paul Nathan Patrone paul.patrone
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RAP opportunity at National Institute of Standards and Technology NIST Fabry-Perot Interferometry for Accelerometers Location Physical Measurement Laboratory, Quantum Measurement Division
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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