A new way to make element 116 opens the door to heavier atoms
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Our bioproduct experts collaborated with industry to help scale-up a promising microbe-made plastic alternative built from the carbon in methane gas.
Researchers at Berkeley Lab have successfully demonstrated an innovative approach to find breakthrough materials for quantum applications. The approach uses rapid computing methods to predict the properties of hundreds of materials, identifying short lists of the most promising ones. Then, precise fabrication methods are used to make the short-list materials and further evaluate their properties.
New funding will help Berkeley Lab and partners improve how the diverse agricultural waste in California’s Northern San Joaquin Valley can be used to make sustainable bioproducts and biofuels.
Researchers grew crystals containing actinium and illuminated them with X-rays to learn how the radioactive metal binds with other elements. That information could help design better cancer treatments.
In a new study, a team of researchers led by Berkeley Lab used a bioscience technique to study the intricate interactions within the anode, cathode, and electrolyte of electric aircraft batteries. One of the most significant findings was the discovery that certain salts mixed into the battery electrolyte formed a protective coating on cathode particles, making them far more resistant to corrosion, thereby enhancing battery life.
As part of an investigation to boost agricultural yields and develop crops that are resilient to climate change, Berkeley Lab scientists have introduced RhizoNet, a computational tool that harnesses the power of AI to transform how we study plant roots and root behavior under various environmental conditions. A paper describing their innovative deep-learning approach, combined with a unique hydroponic device that facilitates in-situ plant imaging, was published June 5 in Scientific Reports.