Sort by
Refine Your Search
-
and optimize separations design. We are seeking collaborators to work with NIST researchers to develop on-chip electric-acoustic spectroscopy to characterize intermolecular interactions in solution. We
-
to work on optimizing MPS designs (potentially with integrated, microfabricated sensors), developing new tissues-on-chips, developing MPS for new organ combinations, and testing drug candidates in
-
experimental data archives available at NIST/TRC and advanced multidimensional optimization techniques to generate self-consistent, predictive force-filed models applicable over wide range of conditions. key
-
chemical species and ligands that may bind a given adsorbate more or less favorably. These variations allow enormous potential for optimizing physical properties, such as the selective adsorption of one
-
, characterize, and optimize interconnects between disparate chip technologies. Applicants will have the opportunity to learn high-demand skills for millimeter-wave technologies including calibration, integrated
-
; signal averaging can be used to optimize signal-to-noise ratios; a wide range of molecular masses is accessible; and the sample can be gas, liquid, or solid. Despite these advantages, the use of NMR
-
such as endoscopy techniques has been qualitative and the most important metric is optimizing image contrast to aid the surgeon in clinical decision. But that is changing. The goal is now to be able
-
; narrow, symmetric peaks and flat baselines are readily obtained for most samples; signal averaging can be used to optimize signal-to-noise ratios; a wide range of molecular masses is accessible; and the
-
Description The properties of finished fuels are crucial to the optimization of not only engine operation, but also for the processing of fuels. As petrochemical feed stocks become increasingly scarce
-
optimizing and properly integrating the various components. Measurement needs now being defined by the energy, homeland security, environmental, and health-care sectors are challenging sensor-science