Scientists at Berkeley Lab and UC Berkeley have created a one-atom thin magnet that operates at room temperature. The ultrathin magnet could lead to new applications in computing and electronics, and new tools for the study of quantum physics.
Scientists from three national labs have published a comprehensive study that – alongside other recent, complementary studies of coronavirus proteins and genetics – represents the first step toward developing treatments for COVID-19.
A multi-institutional research team co-led by Berkeley Lab’s Advanced Light Source has measured at unprecedented detail how leaking oxygen atoms change an electrode’s structure and chemistry, and eventually reduce how much energy a lithium-ion battery can store.
X-ray beams at the Advanced Light Source allowed researchers to “see” oxygen gas molecules adhere to a specially prepared electrode surface, an important step in the electrochemical reaction taking place in fuel cells.
Researchers at Stanford and Berkeley Lab’s Molecular Foundry have developed virus-killing molecules called peptoids. The technology could make possible an emerging category of antiviral drugs that could treat everything from herpes and COVID-19 to the common cold.
Scientists at Berkeley Lab and UC Berkeley have developed a nanoparticle composite that grows into 3D crystals. The new 3D-grown material could speed up production and eliminate errors in the mass manufacturing of nanoscale photonics for smart buildings or actuators for robotics.
A new course that takes place at Berkeley Lab’s Advanced Biofuels and Bioproducts Process Development Unit gives UC Berkeley students hands-on experience with bioprocessing equipment, preparing them for careers in the biopharmaceutical, industrial biotech, or food tech industries.
In our future electrified world, the demand for battery storage is projected to be enormous, reaching to upwards of 2 to 10 terawatt-hours (TWh) of annual battery production by 2030, from less than 0.5 TWh today. However, concerns are growing as to whether key raw materials will be adequate to meet this future demand.
A multidisciplinary team has been working for several years to develop a game-changing plastic that, unlike traditional plastics, can be recycled indefinitely and is not made from petroleum. In this Q&A, we asked two project leaders about the inspiration for the unique plastic, shortfalls in our current recycling systems, and how this ambitious project is enabled by a diverse combination of scientific expertise.
A research team co-led by Berkeley Lab has demonstrated that the chemistry behind the formation of carbon compounds in the early universe could inform cleaner combustion engines.