Two scientists with Berkeley Lab are among 315 researchers named on July 2 by President Donald Trump to receive the prestigious Presidential Early Career Award for Scientists and Engineers. Two faculty scientists jointly affiliated with Berkeley Lab and the University of California, Berkeley are also among those selected to receive the honor.
Researchers have shown that an algorithm with no training in materials science can scan the text of millions of papers and uncover new scientific knowledge. A Berkeley Lab-led team collected 3.3 million abstracts of published materials science papers and fed them into an algorithm. By analyzing relationships between words the algorithm was able to predict discoveries of new thermoelectric materials years in advance and suggest as-yet unknown materials as candidates for thermoelectric materials.
Experiments at Berkeley Lab’s Advanced Light Source detailed the structure of a grouping of amino acids that are part of an important signaling protein.
Scientists have gained a never-before-seen view of nucleation – capturing how the atoms rearrange at 4D atomic resolution. The findings differ from predictions based on the classical theory of nucleation that has long appeared in textbooks.
A team led by Berkeley Lab faculty biochemist Daniel Minor has discovered how a protein produced by bullfrogs binds to and inhibits the action of saxitoxin, the deadly neurotoxin made by cyanobacteria and dinoflagellates that causes paralytic shellfish poisoning.
Like a tiny needle in a sprawling hayfield, a single crystal grain measuring just tens of millionths of a meter – found in a borehole sample drilled in Central Siberia – had an unexpected chemical makeup. And a specialized X-ray technique in use at Berkeley Lab confirmed the sample’s uniqueness and paved the way for its formal recognition as a newly discovered mineral: ognitite.
A study led by Berkeley Lab features a large, interactive map that makes it easier for researchers to discover new forms of ternary nitrides, substances with unique properties with potential applications from semiconductors to industrial coatings.
A study led by Berkeley Lab has uncovered new insight into how to better control the catalyst cobalt oxide for artificial photosynthesis.
Scientists from Berkeley Lab have developed a practical method that brightens atomically thin TMDC semiconductors for device applications such as solar cells, LEDs, and lasers without chemically treating the materials for defects.
Researchers at Berkeley Lab, in collaboration with Dow and Eindhoven University of Technology, have developed a pulsed electron beam technique that enables high-resolution imaging of magnesium chloride without damage. This approach could apply to a vast range of beam-sensitive materials, and help to create a path toward sustainable plastics.