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NIST only participates in the February and August reviews. Modeling and simulation of equilibrium properties and dynamic phenomena in soft materials such as polymers, colloids, and complex fluids
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measurement methods need to be developed to evaluate the filler/nanoparticle polymer interface. The rich interfacial functionality present in new nanofibers based on cellulose and chitin, provide for stress
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, with other polymer and colloidal science tools, to characterize particle or polymer distributions that occur in complex environments. Possible ideas for projects include characterization of Pickering
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, the study of additives used in electrodeposition of semiconductor device interconnects, organic electronic thin films, the study of the buried polymer/dielectric interface in organic thin-film transistors
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image correlation (DIC) datasets with fully three-dimensional finite element analysis (FEA) results in mechanical test setups on metals and polymers including uni-axial and bi-axial loading at different
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, in conjunction with interaction polymer chromatography techniques such as i-GPEC and LCCC, coupled to a variety of on-line detection methods, including MALS, QELS, VISC, ICP-MS, Raman, etc. Exploring
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RAP opportunity at National Institute of Standards and Technology NIST Incorporating Theory and Domain Knowledge into the Machine Learning of Polymeric Systems Location Material Measurement
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Description We seek to develop a deeper understanding of separation processes involving, e.g., polymer membranes, to improve current technologies by reducing energy input and advancing anti-fouling designs
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RAP opportunity at National Institute of Standards and Technology NIST Characterization of Interfaces and Interphases in Polymeric Material Systems Location Engineering Laboratory, Materials and
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[email protected] 301.975.8701 Description Naturally derived nanosized fillers and polymeric materials are important for the next generation of polymer composites, adhesives, and thin films. These materials