147 structures-"https:"-"https:"-"https:"-"https:"-"https:"-"https:"-"https:"-"FCiências" positions at NIST in United States

Low-Dimensional Materials for Electronics, Photonics, Energy, and Sensors

NIST | Gaithersburg, Maryland | United States | about 7 hours ago

traditional thin-film devices include exceptional structural quality, high surface-to-volume ratio, bottom-up device engineering with high-density on-chip integration, and utilization of quantum size effects

Biopharmaceutical and Membrane Protein Stabilization

NIST | Gaithersburg, Maryland | United States | about 8 hours ago

measure structural changes as the agents go from their biologically active to their biologically inactive forms. As analytical methods become available, studies of the physical and chemical processes

Flexible Electronics Reliability

NIST | Boulder, Colorado | United States | about 8 hours ago

the field of flexible electronics. Developing an effective flexible electronic structure has its own challenges from mechanical compliance of the substrate to device performance. There is a delicate balance

Enhanced Raman Spectroscopy of Biological Molecules

NIST | Gaithersburg, Maryland | United States | about 8 hours ago

-to illuminate the structural transformations that occur across phases. The optical characterization of biological molecules using vibrational spectroscopy supplies critical, detailed structural information

Developing Advanced Neutron Reflectometry Techniques to Study Membrane-Associated Proteins

NIST | Gaithersburg, Maryland | United States | about 8 hours ago

constituent elements, such as H, C, and N (for a general overview see Hoogerheide, D. P., Forsyth, V. T. & Brown, K. A. 2020. Neutron scattering for structural biology. Phys Today73, 36–42). In combination with

Materials Modeling, Characterization, and Design for Plasticity

NIST | Gaithersburg, Maryland | United States | about 7 hours ago

models. The current application domain is the relationship between the macroscopic deformation behavior of structural and mechanical materials and the corresponding microstructural deformation, internal

Magnetic Nanotechnology

NIST | Gaithersburg, Maryland | United States | about 7 hours ago

size. interparticle separation, rod diameter, nanocontact area) has been found to vary considerably from that found in the same materials lacking that nanoscale structure. The measurements focus

Design, Characterization, and Modeling of Sequence Controlled Polymers

NIST | Gaithersburg, Maryland | United States | about 8 hours ago

301 975 4364 Kathryn L. Beers kathryn.beers@nist.gov 202 578 8353 Sara Orski sara.orski@nist.gov 301 975 4671 Description Development of quantitative structure-property relationships for polymers has

Data-driven Model Development for Property Prediction in Alloys and Composites

NIST | Boulder, Colorado | United States | about 8 hours ago

on determination of structural, thermophysical, and transport properties of systems and materials. We also aim to enable materials design from the function-structure relationship standpoint, as applied to metal

Mechanisms of polyplex formation

NIST | Gaithersburg, Maryland | United States | about 7 hours ago

-angle x-ray and neutron scattering, and fluorescence correlation spectroscopy to understand the relationships between CART molecular structure (block ratio, charge fraction, degradability), polyanion, and