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    Finding the Cause of Capacity Loss in a Metal-Oxide Battery Material

    Finding the Cause of Capacity Loss in a Metal-Oxide Battery Material

    The formation and thickening of internal and surface barriers during battery charge and discharge cycles limits electrochemical reactions in a lithium-ion battery with an iron-oxide electrode.

    Raised on Copper: A New Material for Tougher Devices

    Raised on Copper: A New Material for Tougher Devices

    Discovery of new boron-containing phase opens the door for resilient flexible electronics.

    Weighty Polymers Impact Battery Stability and Safety

    Weighty Polymers Impact Battery Stability and Safety

    Materials prevent battery failure by inhibiting tree-like growths.

    Science Snapshots: Lithium Under Pressure, A 'Silver Bullet' for the Conversion of Carbon Dioxide, Understanding Microbiomes for  Wastewater Treatment

    Science Snapshots: Lithium Under Pressure, A 'Silver Bullet' for the Conversion of Carbon Dioxide, Understanding Microbiomes for Wastewater Treatment

    Researchers at Berkeley Lab's Molecular Foundry have predicted fascinating new properties of lithium; a powerful combination of experiment and theory has revealed atomic-level details about how silver helps transform carbon dioxide gas into a reusable form; new study reports the first comprehensive

    Summit Charts a Course to Uncover the Origins of Genetic Diseases

    Summit Charts a Course to Uncover the Origins of Genetic Diseases

    A team led by Ivaylo Ivanov of Georgia State University used the 200-petaflop IBM AC922 Summit system, the world's smartest and most powerful supercomputer, to develop an integrative model of the transcription preinitiation complex (PIC), a complex of proteins vital to gene expression.

    A New Collider Concept Would Take Quantum Theories to an Extreme

    A New Collider Concept Would Take Quantum Theories to an Extreme

    A new idea for smashing beams of elementary particles into one another could reveal how light and matter interact under extreme conditions that may exist on the surfaces of exotic astrophysical objects, in powerful cosmic light bursts and star explosions, in next-generation particle colliders and in hot, dense fusion plasma.

    Unexpected observation of ice at low temperature, high pressure questions ice, water theory

    Unexpected observation of ice at low temperature, high pressure questions ice, water theory

    Scientists at Oak Ridge National Laboratory studying super-cold states of water discovered a pathway to the unexpected formation of dense, crystalline phases of ice thought to exist beyond Earth's limits. Their findings, reported in Nature, challenge accepted theories and could lead to better understanding of ice found on other planets, moons and elsewhere in space.

    New Argonne Battery Design Offers ​"Solid" Advantage

    New Argonne Battery Design Offers ​"Solid" Advantage

    In a new study from the U.S. Department of Energy's (DOE) Argonne National Laboratory, researchers have identified a new boundary layer that emerges between a lithium metal anode and a lithium transition metal oxide (LLZO) electrolyte, potentially leading to improved battery stability.

    Laser Focus Shines Light on How Nanoparticles Form

    Laser Focus Shines Light on How Nanoparticles Form

    Titan supercomputer tells origin story of nanoparticle size distributions with large-scale simulations.

    In a first, researchers identify reddish coloring in an ancient fossil - a 3-million-year-old mouse

    In a first, researchers identify reddish coloring in an ancient fossil - a 3-million-year-old mouse

    Researchers have for the first time detected chemical traces of red pigment in an ancient fossil - an exceptionally well-preserved mouse, not unlike today's field mice, that roamed the fields of what is now the German village of Willershausen around 3 million years ago.

    Improving Isotope Supply for a Cancer-Fighting Drug

    Improving Isotope Supply for a Cancer-Fighting Drug

    Production of actinium-227 ramps up for use in a drug to fight prostate cancer that has spread to bone.

    Extracting Signs of the Elusive Neutrino

    Extracting Signs of the Elusive Neutrino

    Scientists use software to "develop" images that trace neutrinos' interactions in a bath of cold liquid argon.

    Machine learning speeds modeling of experiments aimed at capturing fusion energy on Earth to rapidly predict behavior of plasma that fuels fusion reactions

    Machine learning speeds modeling of experiments aimed at capturing fusion energy on Earth to rapidly predict behavior of plasma that fuels fusion reactions

    Release describes application of machine learning form of artificial intelligence to predict the behavior of fusion plasma.

    Record-shattering underwater sound

    Record-shattering underwater sound

    A team of researchers has produced a record-shattering underwater sound with an intensity that eclipses that of a rocket launch. The intensity was equivalent to directing the electrical power of an entire city onto a single square meter, resulting in sound pressures above 270 decibels.

    CosmoGAN: Training a Neural Network to Study Dark Matter

    CosmoGAN: Training a Neural Network to Study Dark Matter

    A Berkeley Lab-led research group is using a deep learning method known as generative adversarial networks to enhance the use of gravitational lensing in the study of dark matter.

    Breakthrough Technique for Studying Gene Expression Takes Root in Plants

    Breakthrough Technique for Studying Gene Expression Takes Root in Plants

    An open-source RNA analysis platform has been successfully used on plant cells for the first time - an advance that could herald a new era of fundamental research and bolster efforts to engineer more efficient food and biofuel crop plants. The technology, called Drop-seq, is a method for measuring the RNA present in individual cells, allowing scientists to see what genes are being expressed and how this relates to the specific functions of different cell types.

    Bio-inspired material targets oceans' uranium stores for sustainable nuclear energy

    Bio-inspired material targets oceans' uranium stores for sustainable nuclear energy

    Scientists have demonstrated a new bio-inspired material for an eco-friendly and cost-effective approach to recovering uranium from seawater. The low-cost polymer adsorbent could help push past bottlenecks in the cost and efficiency of extracting uranium resources from oceans for sustainable energy production.

    Study Concludes Glassy Menagerie of Particles in Beach Sands Near Hiroshima is Fallout Debris from A-Bomb Blast

    Study Concludes Glassy Menagerie of Particles in Beach Sands Near Hiroshima is Fallout Debris from A-Bomb Blast

    A years-long study that involved scientists and experiments at Berkeley Lab and UC Berkeley concluded that an odd assortment of particles found in beach sands in Japan are most likely fallout debris from the 1945 Hiroshima A-bomb blast.

    New technique merging sound and math could help prevent plasma disruptions in fusion facilities

    New technique merging sound and math could help prevent plasma disruptions in fusion facilities

    Scientists have created a novel method for measuring the stability of plasma in fusion facilities called "tokamaks." Involving an innovative use of a mathematical tool, the method might lead to a technique for stabilizing plasma and making fusion reactions more efficient.

    2D insulators with ferromagnetic properties are rare; researchers just identified a new one

    2D insulators with ferromagnetic properties are rare; researchers just identified a new one

    Collaborating scientists at the U.S. Department of Energy's Ames Laboratory, Brookhaven National Laboratory, and Princeton University have discovered a new layered ferromagnetic semiconductor, a rare type of material that holds great promise for next-generation electronic technologies.

    Assessing battery performance: Compared to what?

    Assessing battery performance: Compared to what?

    A team from the U.S. Department of Energy's (DOE) Argonne National Laboratory, University of Warwick, OVO Energy, Hawaii National Energy Institute, and Jaguar Land Rover reviewed the literature on the various methods used around the world to characterize the performance of lithium-ion batteries to provide insight on best practices. Their results may one day lead to more reliably comparable methods for testing lithium-ion batteries tailored to different applications.

    Probing battery hotspots for safer energy storage

    Probing battery hotspots for safer energy storage

    For the first time, a team of researchers has studied the effects of tiny areas within lithium metal batteries that are much hotter than their surroundings. These hotspots, the researchers find, can make batteries grow spiky tumors of metal called dendrites that could cause short circuits, and potentially lead to fires.

    A New Filter to Better Map the Dark Universe

    A New Filter to Better Map the Dark Universe

    To address messy measurements of the cosmic web that connects matter in the universe, researchers at Berkeley Lab developed a way to improve the accuracy and clarity of these measurements based on the stretching of the universe's oldest light.

    Focus on Nuclear Waste Chemistry Could Help Hanford Cleanup Challenges

    Focus on Nuclear Waste Chemistry Could Help Hanford Cleanup Challenges

    Researchers at the Department of Energy's Oak Ridge National Laboratory, Pacific Northwest National Laboratory and Washington State University teamed up to investigate the complex dynamics of low-water liquids that challenge nuclear waste processing at federal cleanup sites.

    Plastic Gets a Do-Over: Breakthrough Discovery Recycles Plastic From the Inside Out

    Plastic Gets a Do-Over: Breakthrough Discovery Recycles Plastic From the Inside Out

    A team of researchers at Berkeley Lab has designed a recyclable plastic that, like a Lego playset, can be disassembled into its constituent parts at the molecular level, and then reassembled into a different shape, texture, and color again and again without loss of performance or quality.