New video footage captured by Berkeley Lab scientists shows for the first time that nanoparticle growth is directed by defects. The researchers say that their work is the highest resolution liquid-cell transmission electron microscopy video ever recorded.
Scientists at Berkeley Lab and UC Berkeley have developed a thin film from a century-old material for next-gen memory and logic devices. The breakthrough advances the pursuit of low-voltage electronics that require less energy to operate than today’s silicon-based electronics.
Three Berkeley Lab scientists have been selected by DOE’s Office of Science to receive funding through the Early Career Research Program. In addition, three faculty scientists with joint appointments at Berkeley Lab and UC Berkeley will receive ECRP funding through their UC Berkeley affiliations.
Some analysts say that the end of Moore’s Law is near, but Patrick Naulleau, the director of Berkeley Lab’s Center for X-Ray Optics (CXRO), says that it could be decades before the modern chip runs out of room for improvement, thanks to advances in materials and instrumentation enabled by the CXRO.
A Berkeley Lab-led research team has demonstrated an ultrathin silicon nanowire that conducts heat 150% more efficiently than conventional materials used in advanced chip technologies. The device could enable smaller, faster, energy-efficient microelectronics.
Joel Moore and Joseph W. Orenstein of the Materials Sciences Division have been elected into the National Academy of Sciences. They join 120 scientists and engineers from the U.S. and 30 from across the world as new lifelong members and foreign associates.
A team co-led by Berkeley Lab has discovered a new ultrathin material with exotic magnetic features called skyrmions. The new material could enable the next generation of tiny, fast, energy-efficient electronic devices.
Unconventional superconductors carry electrical current with zero resistance in ways that defy our previous understanding of physics. A recent study led by Berkeley Lab could help researchers advance future applications in next-gen energy storage, supercomputing, and magnetic levitating trains.
In this Q&A, ALS senior staff scientist David Shapiro and Stanford materials science professor William Chueh share how their pioneering X-ray techniques can help researchers understand how battery materials work in real time at the atomic scale.
MIT physicists and colleagues, including scientists from Berkeley Lab, have discovered the “secret sauce” behind the exotic properties of a new quantum material known as a kagome metal.