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.
Experiments at Berkeley Lab are casting a new light on Egyptian soil and ancient mummified bone samples that could provide a richer understanding of daily life and environmental conditions thousands of years ago.
A team of researchers at Berkeley Lab and UC Berkeley has successfully demonstrated how machine-learning tools can improve the stability of light beams’ size for science experiments at a synchrotron light source via adjustments that largely cancel out unwanted fluctuations.
Scientists at Berkeley Lab have designed an affordable ‘flow battery’ membrane that could accelerate renewable energy for the electrical grid.
A new test agent can easily and efficiently detect the misfolded protein aggregates that cause devastating neurological diseases in blood samples. The technology could lead to early diagnosis of prion, Alzheimer’s, and Parkinson’s diseases for the first time.
Scientists at Berkeley Lab have demonstrated how a powerful electron microscopy technique can provide direct insight into the performance of any material – from strong metallic glass to flexible semiconducting films – by pinpointing specific atomic “neighborhoods.”
Berkeley Lab researchers are pushing the boundaries of electron microscopy by exploring the exciting new frontier of cold microscopes.
The unique ways in which proteins fold dictate their interplay with diseases and medicines, so understanding their twists and turns is key to designing effective drugs. While new drug design is serious work, discovering how proteins fold can be fun, too: A crowdsourcing game called Foldit allows players to try different fold configurations for points
An international team has developed a robust material that can selectively take in toxic sulfur dioxide gas at record concentrations and preserve it for use in chemical production.