313 developer-"https:"-"https:"-"https:"-"CEA-Saclay" positions at NIST

Microstructure of Structural and Functional Ceramics for Additive Manufacturing, Energy Conversion and Storage

NIST | Gaithersburg, Maryland | United States | 2 days ago

to the sub-nanometer scale regime. Our goal is to leverage our access to state-of-art X-ray and neutron facilities to develop and apply operando measurement methods that can quantify full three-dimensional

Mathematical Models for Characterizing Pluripotent Stem Cell Populations

NIST | Gaithersburg, Maryland | United States | 2 days ago

to consider multidimensional landscapes. The goal of this research project is to develop models that can be used to evaluate the stability and predict transitions as cell populations progress from pluripotent

Chemical Foundation for Capture and Release of Difficult to Detect Drugs or Drug Metabolites of Abuse

NIST | Boulder, Colorado | United States | 2 days ago

developing the measurement infrastructure to acquire fundamental property data related to the capture and release of difficult to detect drugs or drug metabolites. We will then design, develop, and

Advanced Properties of Single-photon Sources and Detectors

NIST | Gaithersburg, Maryland | United States | 2 days ago

are particularly interested in developing and characterizing hybrid quantum systems (interfaces between dissimilar physical media), suitable for quantum information purposes, and exotic sources of faint light

Computational Methods for NMR Structural Biology and Biomanufacturing of Protein and Live Cell Therapeutics

NIST | Gaithersburg, Maryland | United States | 2 days ago

identification of spectral features by computer vision and machine learning. Our computational methods development has three primary goals. The first goal is continued support of expert-driven biomolecular

Integrated Microfluidics and Photonics for Chemical and Cellular Measurements

NIST | Gaithersburg, Maryland | United States | 2 days ago

microfluidic networks.Our goal is to develop systems that enable accurate, high-throughput, and dynamic measurement of materials in flow, which will, for example, improve the ability to specify composition and

Computational Electromagnetics

NIST | Boulder, Colorado | United States | 2 days ago

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

High-Temperature Piezoelectric Materials for Resonant Acoustic Sensors

NIST | Boulder, Colorado | United States | 2 days ago

activated defect evolution, material damping, and temperature dependence of physical properties of piezoelectric materials. During the past two decades, innovative single-crystalline piezoelectric materials

Characterization of Complex Colloids via Analytical Ultracentrifugation

NIST | Gaithersburg, Maryland | United States | 2 days ago

@nist.gov 301.975.6740 Description With the development of nanoparticle and colloidal technologies that include processing in the dispersed phase (or are fundamentally liquid phase processes), there is a need

Biophysics: Studying Single Biological Molecules with Atomic-Scale Resolution

NIST | Boulder, Colorado | United States | 2 days ago

303.492.5291 Description Single molecule studies are revolutionizing biophysics. The Perkins group focuses on developing and applying high-precision single-molecule studies based on optical traps and atomic