A team based at Berkeley Lab’s Advanced Light Source is making waves with its new approach for whole-cell visualization, using the world’s first soft X-ray tomography (SXT) microscope built for biological and biomedical research. In its latest study, published in Science Advances, the team used its platform to reveal never-before-seen details about insulin secretion in pancreatic cells taken from rats.
It was a year dominated by COVID-19 research, along with some beetles, batteries, and a Nobel Prize
A new material developed by a team led by Berkeley Lab’s Molecular Foundry will help to make hydrogen a viable energy source for a wide range of applications, including stationary power and portable power applications.
Researchers from Berkeley Lab and Los Alamos National Laboratory have developed new methods for the large-scale production, purification, and use of the radioisotope cerium-134, which could serve as a PET imaging radioisotope for a highly targeted cancer treatment known as alpha-particle therapy.
The Daya Bay Reactor Neutrino Experiment collaboration – which made a precise measurement of an important neutrino property eight years ago, setting the stage for a new round of experiments and discoveries about these hard-to-study particles – has finished taking data. Though the experiment is formally shutting down, the collaboration will continue to analyze its complete dataset to improve upon the precision of findings based on earlier measurements.
A new approach for studying phages-bacteria interactions will help scientists study the intricate offensive and defensive chemical tactics used by parasite and host. These microscopic battles have implications for medicine development, agricultural research, and climate science.
To address PPE shortages during the pandemic, scientists at Berkeley Lab and UC Berkeley are developing a rechargeable, reusable, anti-COVID mask design and a 3D-printable silicon-cast mask mold.