Berkeley Lab researchers believe they have uncovered the secret behind the unusual optoelectronic properties of single atomic layers of TMDC materials, the two-dimensional semiconductors that hold great promise for nanoelectronic and photonic applications.
Researchers from Lawrence Berkeley National Laboratory, the University of California Berkeley, and Pacific Northwest National Laboratory have used a high-powered electron microscope to capture the birth of calcium carbonate crystals. It is a first step, the researchers say, to better understanding how it might be possible to pull excess carbon dioxide from the air and store it in rock where it wouldn’t contribute to global warming.
Nearly 20 years ago researcher Alex Zettl of the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) synthesized in his lab a new material never before seen by nature: boron nitride nanotubes, the strongest, lightest, most thermally conducting, and most chemically resistant fiber known to exist. Now a startup has licensed this technology with
Air Quality in San Joaquin Valley Improving: Study Shows Controls to Reduce Nitrogen Oxide Emissions Are Working
Life-Saving Dividends for Synthetic Biology Research: Microbial-Based Antimalarial Drug Shipped to Africa
Scientists studying the human tissues and entire living model organisms have an array of tools at their disposal to view the inner workings of our biological systems, from mass spectrometry imaging and optical microscopies, which can make pictures of entire tissues and organs, down to X-ray crystallography and NMR (nuclear magnetic resonance), which can image