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Big Data at the Atomic Scale: New Detector Reaches New Frontier in Speed

A superfast detector installed on an electron microscope at Berkeley Lab’s Molecular Foundry will reveal atomic-scale details across a larger sample area than could be seen before, and produce movies showing chemistry in action and changes in materials.

Berkeley Lab Contributes to New Research Offering First Complete Picture of Lithium-Ion Battery Performance

One issue plaguing today’s commercial battery materials is that they are only able to release about half of the lithium ions they contain. But for some reason, every new charge and discharge cycle slowly strips these lithium-rich cathodes of their voltage and capacity. A new study provides a comprehensive model of this process.

Nanocrystals Get Better When They Double Up With MOFs

Researchers from Berkeley Lab’s Molecular Foundry have designed a dual-purpose material out of a self-assembling MOF (metal-organic framework)-nanocrystal hybrid that could one day be used to store carbon dioxide emissions and to manufacture renewable fuels.

Scientists Bring Polymers Into Atomic-Scale Focus

A Berkeley Lab-led research has adapted a powerful electron-based imaging technique to obtain a first-of-its-kind image of atomic-scale structure in a synthetic polymer. The research could ultimately inform polymer fabrication methods and lead to new designs for materials and devices that incorporate polymers.

Toward a New Light: Advanced Light Source Upgrade Project Moves Forward

The Advanced Light Source (ALS), a scientific user facility at Berkeley Lab, has received federal approval to proceed with preliminary design, planning and R&D work for a major upgrade project that will boost the brightness of its X-ray beams at least a hundredfold. The upgrade will give the ALS, which this year celebrates its 25th anniversary, brighter beams with a more ordered structure – like evenly spaced ripples in a pond – that will better reveal nanoscale details in complex chemical reactions and in new materials, expanding the envelope for scientific exploration.

Berkeley Quantum to Accelerate Innovation in Quantum Information Science

Berkeley Lab and UC Berkeley today announced the formation of Berkeley Quantum, a partnership designed to accelerate and expand innovation in quantum information science (QIS). Participants in Berkeley Quantum projects will contribute by bringing their strengths in QIS research, theory, algorithms, and applications to help solve, together, some of the most difficult problems in quantum science.

Berkeley Lab to Build an Advanced Quantum Computing Testbed

The U.S. Department of Energy announced today that Berkeley Lab will receive $30 million over five years to build and operate an Advanced Quantum Testbed. Researchers will use the testbed to explore superconducting quantum processors and evaluate how these emerging quantum devices can be utilized to advance scientific research. As part of this effort, Berkeley Lab will collaborate with MIT Lincoln Laboratory to deploy different quantum processor architectures.

Getting a Charge Out of MOFs

Researchers at Berkeley Lab and UC Berkeley have made a MOF with the highest electron charge mobilities ever observed, along with a technique to improve the conductivity of other MOFs.

Light-Emitting Nanoparticles Could Provide a Safer Way to Image Living Cells

A research team has demonstrated how light-emitting nanoparticles, developed at Berkeley Lab, can be used to see deep in living tissue. Researchers hope they can be made to attach to specific components of cells to serve in an advanced imaging system that can pinpoint even single cancer cells.

Scientists ‘Squeeze’ Nanocrystals in a Liquid Droplet Into a Solid-Like State – and Back Again

A team led by scientists at Berkeley Lab found a way to make a liquid-like state behave more like a solid, and then to reverse the process.