Graphene, a single layer of carbon atoms, is one of the most likely materials to produce the next breakthrough in the electronics … more
Our goal is to develop Standard Reference Materials (SRMs) and quantitative, reproducible X-ray reflectometry (XRR) data analysis methods to … more
Optical Materials Metrology 21st century optoelectronics emphasizes energy technologies, and modern security issues have heightened needs for … more
Focused beams of ions have a wide range of uses, from nanoscale imaging to the fabrication of nanomaterials. At the CNST, researchers … more
Quantum coherent materials have become important in magnetic sensors as well as information processing technology. For magnetic sensors, … more
Our objective is to develop accurate measurement methods for the nanoscale stress distributions and surface defects that control device … more
A JEOL model 7830F field emission source, scanning Auger microscope. more
Hankering for Molecular Electronics? Grab the New NIST Sandwich
Novel Temperature Calibration Improves NIST Microhotplate Technology
Neutron Researchers Discover Widely Sought Property in Magnetic Semiconductor
Physical Model for Random Telegraph Noise Amplitudes and Implications
Radio Frequency and Analog/Mixed-Signal Technologies
ITRS Chapter: RF and A/MS Technologies
General Information: 301-975-NIST (6478) inquiries@nist.gov
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