View Berkeley Lab from the sky in this aerial video, which features drone footage taken earlier this year by Thor Swift, lead photographer in Berkeley Lab’s Creative Services office of the Information Technology Division. The video was produced by Marilyn Sargent, a multimedia producer in the Strategic Communications department.
Scientists at Berkeley Lab have demonstrated a new technique that could improve the performance of atomically thin semiconductors for next-generation electronics such as optoelectronics, thermoelectrics, and sensors.
Scientists at Berkeley Lab and the Joint Center for Artificial Photosynthesis (JCAP) have gained important new insight into how the performance of a promising semiconducting thin film can be optimized at the nanoscale for renewable energy technologies such as solar fuels.
X-ray experiments at Berkeley Lab played a key role in resolving the origin of rare, odd meteorites that have puzzled scientists since their discovery a half-century ago. Known as type IIE iron meteorites, they appear to have originated from a parent body that had a composition featuring both fully melted and unmelted parts – other meteorite types display only one composition.
Researchers at Berkeley Lab, in collaboration with Carnegie Mellon University, have developed a new battery material that could enable long-range electric vehicles that can drive for hundreds of miles on a single charge, and eVTOL (electric vertical takeoff and landing) aircraft.
A research team co-led by Berkeley Lab and UC Berkeley grew onto silicon an ultrathin material that demonstrates ferroelectricity. The discovery could lead to ultrathin materials that control the smallest electronic devices.
Humans have drawn technological inspiration from fish scales going back to ancient times: Romans, Egyptians, and other civilizations would dress their warriors in scale armor, providing both protection and mobility. Now, using advanced X-ray imaging techniques, Berkeley Lab scientists have characterized carp scales down to the nanoscale, enabling them to understand how the material is resistant to penetration while retaining flexibility.
An international scientific team has discovered a neutralizing antibody, derived from the blood of a SARS survivor, that inhibits the closely related COVID-19-causing coronavirus. In a paper published this week in Nature, the scientists note that the antibody is already on an accelerated development path toward clinical trials.
David Richardson’s job is literally to make sure the light stays on. But it’s not just any light – it’s a very special X-ray light that could play a crucial role in an eventual treatment for COVID-19. Richardson is an operator at the Advanced Light Source, and is one of a handful of workers providing essential services to scientists working on COVID-19-related research.
Two Berkeley Lab scientists and a visiting scientist are among the newest elected members of the American Academy of Arts and Sciences – a 240-year-old honorary society that recognizes accomplished scholars, scientists and artists in academia, the humanities, arts, business, and government.