An upgrade of the Advanced Light Source (ALS), a synchrotron at the U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab), has passed an important milestone that will help to maintain the ALS’ world-leading capabilities. On Dec. 23 the DOE granted approval for a key funding step that will allow the project to start construction on a new inner electron storage ring known as an accumulator ring.
An investigational cancer drug that targets tumors caused by mutations in the KRAS gene will be evaluated in phase 2 clinical trials, following promising safety and efficacy results in preliminary human studies and excellent results in animal studies. The drug, developed by Amgen and currently referred to as AMG 510, is the first therapy to reach clinical
A team of scientists led by Berkeley Lab has developed a library of artificial proteins or “peptoids” that effectively “chelate” or bind to lanthanides and actinides, heavy metals that make up the so-called f-block elements at the bottom of the periodic table. The new library offers researchers an automated, high-throughput method for precisely designing new
Adult teeth can last a lifetime, withstanding enormous chewing pressures applied hundreds of times each day for decades. In a recent study published in Nature Communications, researchers discovered a natural toughening mechanism: small misorientations among the nanocrystal building blocks of human tooth enamel. Enamel is composed of hydroxyapatite, a biomineral that forms long and thin
A team of scientists led by Berkeley Lab has transformed diamonds’ natural atomic flaws into an ultrasensitive diamond anvil sensor that could open the door to a new generation of smart, designer materials, as well as the synthesis of new chemical compounds, atomically fine-tuned by pressure.
With its deep expertise in materials research, materials design, and energy storage technologies, Berkeley Lab is working on better battery alternatives. Gerbrand Ceder, a battery researcher in the Materials Science Division, details four battery technologies being studied by Berkeley Lab scientists that could make a big difference in the future.
Scientists at Berkeley Lab are the first to use cryogenic electron microscopy (cryo-EM) to image atomic changes in artificial proteins known as “peptoids.” Their findings have implications for the synthesis of soft, 2D materials for a wide variety of applications.
To better understand how a liquid interacts with the surface of a solid, Berkeley Lab researchers developed a platform to explore these interactions under real conditions at the nanoscale using a technique that combines infrared light with an atomic-scale probe.
Following an international search, Robert Kostecki has been appointed director of the Energy Storage and Distributed Resources Division in the Energy Technologies Area at Berkeley Lab.
Scientists at Berkeley Lab have revealed how atomic defects emerge in TMDs (transition metal dichalcogenides), and how those defects shape the 2D material’s electronic properties. Their findings could provide a versatile yet targeted platform for designing 2D materials for quantum information science.