Berkeley Lab scientists Maurice Garcia-Sciveres and Ramamoorthy Ramesh discuss how future microchips could perform better – and require less energy – than silicon. Over the next three years, they will lead two of the 10 projects recently awarded nearly $54 million by the Department of Energy to increase energy efficiency in microelectronics design and production.
Scientists at Berkeley Lab and the Technical University of Munich have developed a new technique that allows researchers to synthesize a perovskite solar material and test its performance at the same time.
With a simple stretch, a thin semiconductor material can achieve near 100% light-emission efficiency at all brightness levels. The discovery, reported by scientists at Berkeley Lab and UC Berkeley in the journal Science, has implications for energy-efficient mobile devices and lighting applications.
U.S. Energy Secretary Jennifer Granholm visited the Bay Area on Friday, Aug. 20, making a two-hour stop at Lawrence Berkeley National Laboratory for discussions with Lab scientists and leaders and tours of two of the Lab’s five national scientific user facilities.
Scientists at Berkeley Lab and UC Berkeley have taken the clearest picture yet of electronic particles that make up a mysterious magnetic state called quantum spin liquid. The achievement could facilitate the development of superfast quantum computers and energy-efficient superconductors.
Increasingly, scientists are recognizing that negative emissions technologies (NETs) to remove and sequester carbon dioxide from the atmosphere will be an essential component in the strategy to mitigate climate change. Lawrence Berkeley National Laboratory (Berkeley Lab), a multidisciplinary Department of Energy research lab, is pursuing a portfolio of negative emissions technologies and related research.
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 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.
Buildings currently consume about 40% of all the electricity used in the United States, most of them located in urban areas that are growing rapidly. Because electricity generation is the largest source of greenhouse gas emissions in the country, making urban buildings more energy efficient could help mitigate global climate change. In order to achieve
Fourteen scientists and engineers will join the prestigious Cyclotron Road program for a two-year fellowship based at the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) and UC Berkeley. With access to world-class scientists and research facilities, fellows will define optimal paths for turning their science into value for industry, national security, and society.