331 embedded-system-"https:"-"https:"-"https:"-"https:"-"UCL" positions at NIST

Exploring the molecular details of the ERK2 enzyme

NIST | Boulder, Colorado | United States | 4 days ago

details of regulatory mechanisms for ERK1/2 is a timely and important goal. Structural, biochemical, and biophysical experiments carried out by Natalie Ahn's lab and others have established key aspects

Evaluating Cell Health for Cell Therapy Products

NIST | Gaithersburg, Maryland | United States | 4 days ago

Description Cell viability is a crucial measurement for advanced therapies such as cell and gene therapies and regenerative medicine, where live cells are the therapeutic agent.  Cell viability measurements

Atomic Scale Characterization and Manipulation

NIST | Gaithersburg, Maryland | United States | about 6 hours ago

301.975.3716 Description In support of the development of future electronic systems, research focuses in areas that relate to measurements and physics on the nanometer scale based on scanning tunneling

FEM simulations to characterize mechanical properties and deformation behavior in advanced packaging applications

NIST | Gaithersburg, Maryland | United States | 4 days ago

related to contact/fracture mechanics is preferred. key words hybrid bonding; thermomechanical characterization; interfacial adhesion; fracture and contact mechanics; finite element modeling and simulation

Ground- and Space-Based Remote Sensing

NIST | Gaithersburg, Maryland | United States | 4 days ago

to meet these demands. NIST also researches methods to improve physical environmental measurements made to complement or validate space-based measurements. The NIST effort is aided by specialized facilities

Functionalizing Semiconductor Surfaces

NIST | Gaithersburg, Maryland | United States | 4 days ago

Description Combining organic monolayers with semiconductor surfaces is of interest for many differing applications including molecular electronics, sensors, and bio-electronics. Monolayers on semiconductor

Mathematical Modeling, Analysis, and Uncertainty Quantification

NIST | Gaithersburg, Maryland | United States | 4 days ago

@nist.gov 301.975.5551 Description Mathematical modeling is fundamental for interpreting measurements.  In order to leverage its full potential in metrology settings, however, one must understand how models

Compressive Sensing Methods for Electron Microscopy and Microanalysis

NIST | Gaithersburg, Maryland | United States | 4 days ago

. Compressive sensing is a new approach where incomplete sampling under certain circumstances can be used to accurately recover the full data set--roughly translated into more information from less data

Mathematical Models for Characterizing Pluripotent Stem Cell Populations

NIST | Gaithersburg, Maryland | United States | 4 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

Label-free Biomolecule Sensing with Microwave Microfluidics

NIST | Boulder, Colorado | United States | 4 days ago

parallel, low-cost analysis systems that do not rely on optical or aptamer-based labels. Before such systems can be realized, the electromagnetic response of biochemical samples must be understood in detail