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.
Researchers at Berkeley Lab and UC Berkeley have demonstrated that a common material can be processed into a top-performing energy storage material. Their discovery could improve the efficiency, reliability, and robustness of personal electronics, wearable technologies, and car audio systems.
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.
Kristin Persson, a senior faculty scientist in the Energy Storage & Distributed Resources Division within the Energy Technologies Area at Berkeley Lab and director of the Materials Project, has been named director of the Molecular Foundry. Her appointment is effective August 15, 2020.
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 Berkeley Lab-led research team’s surprising discovery could lead to new electronic materials that surpass the limitations imposed by Moore’s Law, which predicted in 1975 that the number of transistors packed into a silicon computer chip would double every two years.
Paul Alivisatos, an internationally renowned chemist who holds joint appointments with Berkeley Lab and UC Berkeley, has been awarded the 2021 Priestley Medal, the highest honor of the American Chemical Society.
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.
A team of scientists led by Berkeley Lab and UC Berkeley has demonstrated a powerful new technique that uses light to measure how electrons move and interact within 2D materials. Their finding could lead to new approaches for quantum devices.
Three scientists at Berkeley Lab have been selected by the U.S. Department of Energy’s Office of Science to receive significant funding for research through its Early Career Research Program (ECRP). In addition, three faculty scientists with joint appointments at Berkeley Lab and UC Berkeley will receive ECRP funding through their UC Berkeley affiliations.