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Fuel Cell X-Ray Study Details Effects of Temperature and Moisture on Performance

To find the right balance of moisture and temperature in a specialized type of hydrogen fuel cell, Berkeley Lab scientists have used X-rays to explore the inner workings of its components at tiny scales.

Scientists Harness Ultrafast Magnetism for Low-Power Memory

Scientists have developed a new, ultrafast method for electrically controlling magnetism in certain metals, a development that could lead to greatly increased performance and more energy-efficient computer memory and processing technologies.

New Studies on Disordered Cathodes May Provide Much-Needed Jolt to Lithium Batteries

In a pair of papers published in Nature Communications and Physical Review Letters, a team of scientists at Lawrence Berkeley National Laboratory has come up with a set of rules for making new disordered materials, a process that had previously been driven by trial-and-error. They also found a way to incorporate fluorine, which makes the material both more stable and have higher capacity.

Berkeley Lab and Hydro-Québec Announce Partnership for Transportation Electrification and Energy Storage

Hydro-Québec and Lawrence Berkeley National Laboratory have agreed to explore collaborations toward the research and development of manufacturing and scale-up technology to advance transportation electrification and energy storage.

Scientists Solve a Magnesium Mystery in Rechargeable Battery Performance

A Berkeley Lab-led research team has discovered a surprising set of chemical reactions involving magnesium that degrade battery performance even before the battery can be charged up. The findings could steer the design of next-gen batteries.

NIH Awards $6.5 Million to Berkeley Lab for Augmenting Structural Biology Research Experience

The NIH has awarded $6.5 million to Berkeley Lab to integrate existing synchrotron structural biology resources to better serve researchers. The grant will establish a center based at the Lab’s Advanced Light Source (ALS) called ALS-ENABLE that will guide users through the most appropriate routes for answering their specific biological questions.

Injecting Electrons Jolts 2-D Structure Into New Atomic Pattern

The same electrostatic charge that can make hair stand on end and attach balloons to clothing could be an efficient way to drive atomically thin electronic memory devices of the future, according to a new Berkeley Lab study. Scientists have found a way to reversibly change the atomic structure of a 2-D material by injecting it with electrons. The process uses far less energy than current methods for changing the configuration of a material’s structure.

Berkeley Lab Tech Brings Nobel-Winning Cryo-EM Into Sharper Focus

Berkeley Lab played a key role in the 2017 Nobel Prize in chemistry, awarded today, honoring the development of cryo-EM, an imaging technique that has launched the fields of structural biology and biochemistry into an exciting new era of discovery.

Nanoparticle Supersoap Creates ‘Bijel’ With Potential as Sculptable Fluid

Berkeley Lab scientists used nanoparticle surfactants to create a new type of “bijel,” a material that holds promise as a malleable liquid with applications in liquid circuitry, energy conversion, and soft robotics.

Copper Catalyst Yields High Efficiency CO2-to-Fuels Conversion

Berkeley Lab scientists have developed a new electrocatalyst that can directly convert carbon dioxide into multicarbon fuels and alcohols using record-low inputs of energy. The work is the latest in a round of studies coming out of Berkeley Lab tackling the challenge of a creating a clean chemical manufacturing system that can put carbon dioxide to good use.