Sort by
Refine Your Search
-
research in high-impact science and engineering fields that utilize vapors, liquids, and aerosols. Our experimental scientists focus on developing fundamental measurements and novel methodologies that can
-
Sorbent materials are candidates for many industrial and sustainable development applications, including carbon capture, hydrogen and methane storage, gas separation and purification, and catalysis. However
-
, (2) interpretation of experimental spectra, (3) development of semi-empirical methods, (4) studies of reactivity indices, (5) computational electrochemistry, and (6) chemical informatics. The explosion
-
conditions with advanced metrology . This project seeks to develop research tools for measuring laser propagation to and from the laser-matter interaction, material cooling rates, and more, via high-speed
-
. The uncertainty of conventional fire measurements can be large due to the practical assumptions used to develop the measurements. State-of-the-art measurement technology is available to provide independent
-
NIST only participates in the February and August reviews. In recent years, there have been significant efforts to develop magnetic nanoparticles for biomedical applications. This has included work
-
calculation of the thermodynamic and transport properties of gases for use as standards. Areas of particular interest include the development of next-generation standards for measuring temperature, pressure
-
interactions with the electrolyte as a function of applied potential. Despite more than a century of model development, much is still unknown about even single-crystal interfaces. We combine spectroscopic and
-
Description Research focuses on the chemical and physical mechanisms of and in situ diagnostic development for thermal chemical vapor deposition (CVD) and atomic layer deposition (ALD), with applications in
-
of the AFM probe-sample interaction. This research opportunity will focus on developing state of the art AFM instrumentation and computation modeling for 3D nanoscale property characterizations. In either