Latest News

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Scientists directly see how the atoms in a magnesium-based battery fit into the structure of electrodes.

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Scientists mimic a worm’s lethal jaw to design and form resilient materials.

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Converting laser light into nuclear vibrations is key to switching a material’s properties on and off for future electronics.

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Scientists demonstrated that powerful acids heal certain structural defects in synthetic films.

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Novel engineered polymers assemble buckyballs into columns using a conventional coating process.

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Lasting just a few hundred billionths of a billionth of a second, these bursts offer new tool to study chemistry and magnetism.

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To conduct fusion research, scientists at the Department of Energy’s national laboratories have often had to develop entirely new technologies. In several cases, these technologies have gone on to be extremely useful in other areas, from electronics manufacturing to nuclear radiation detection.

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Each year, the DOE Office of Science write profiles on past NSB competitors. These features include their memories of their high school adventures and information on their education and career accomplishments.

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This is part of a series of profiles on past National Science Bowl competitors.

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First demonstration of high-pressure metastability mapping with ultrafast X-ray diffraction shows objects aren’t as large as previously thought.

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Using genetic engineering, scientists improve biomass growth and conversion in woody and grassy feedstocks.

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Novel observations suggest a great potential of measuring global gross primary production via solar-induced fluorescence.

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This is the first in series of five planned profiles on past National Science Bowl competitors.

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Multiple plausible hypotheses in how maximum photosynthetic rates scale across the Earth lead to substantial variability in predicting carbon uptake.

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The DOE’s Office of Science is supporting research and facilities that improve the fundamental understanding of chemistry and physics essential to these technologies. Research into nanoparticles, two-dimensional materials, and metal-organic frameworks is setting the foundation for sensors that are cheaper, more efficient, and more sensitive than current technologies.

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Exotic material exhibits an optical response in enormous disproportion to the stimulus -- larger than in any known crystal.

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Flexible, tunable technique warms plants without need for electricity, aiding ecosystem research in remote locales.

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Chemical genomic-guided engineering of gamma-valerolactone-tolerant yeast.

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Certain species of trees retain stored water, limit root growth to survive three months without water.

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Intuitive visual analytical model better explains complex architectural scenarios and offers general design principles.

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High-performance computing reveals the relationship between DNA and phosphorous uptake.

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Supercomputer simulations predict how E. coli adapts to environmental stresses.

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Researchers bring extreme conditions to a supercomputer and discover new insights about our solar system and beyond.

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Toolkit lets scientists detect extreme weather in climate simulations far faster than before.

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Americium(III) is selectively and efficiently separated from europium(III) by an extractant in an ionic liquid.

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Electronic and structure richness arise from the merger of semiconducting molecules of carbon buckyballs and 2-D graphene.

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Tracking atoms is crucial to improving the efficiency of next-generation perovskite solar cells.

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Iron may be more valuable than platinum. Sometimes.

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Global models may be underestimating net wetland methane emissions.

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The geometric complexities uncovered provide insights into how these mini-organs get assembled, potentially of interest for fuel production.

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The CUORE experiment set the tightest limits yet on the rare decay of tellurium-130, providing insights into the nature of neutrinos.

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Today, U.S. Secretary of Energy Rick Perry announced that the Department of Energy (DOE) will award 179 grants totaling $30 million to 149 small businesses in 36 states.

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This research offers new information to understand the role of microorganisms in elemental cycling in the Arctic.

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Defect-enhanced transport and complex phase growth are changing design rules for lithium-ion batteries.

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Colossal magnetoresistance at terahertz frequencies in thin composites boosts novel memory devices operated at extremely high speed.

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Neutrinos are the most abundant particles in the universe and could reveal insight into physics beyond the Standard Model. However, they’re incredibly difficult to detect. While most neutrino detectors are very large, two experiments supported by the Department of Energy at Oak Ridge National Laboratory are poised to demonstrate that even modest neutrino experiments can make big discoveries.

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First known material capable of emitting single photons at room temperature and telecom wavelengths.

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Day-night changes in light and temperature power a low-cost material assembly that mimics biological self-copying.

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Engineers develop wires that penetrate neurons and measure their activity

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Gel uses nanoparticles for on-demand control of droplet shapes, of interest for energy storage and catalysis.

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Current generated when light hits a material reveals electrons behaving like an elusive particle.

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Tiny cages can trap and release inert argon gas atoms, allowing their further study and providing a new way to capture rare gases.

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Simulations discovered the first molecule with three extra electrons and extraordinary stability.

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Unprecedented characterization of subsurface electronic states could lead to better semiconductors and seeing new interactions.

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Multiple techniques to characterize an enzyme complex shed light on how bacteria create particles and contribute to global cycles.

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This is one in a series of profiles on directors of the SC-stewarded user facilities. This profile features Sergei Nagaitsev, director of the Fermilab Accelerator Complex.

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Study shows how aerosols interacting with clouds can be accurately captured by sparse set of representative particles.

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Without fungi, dead trees wouldn’t decay. The short-order cooks of the natural world, certain types of fungi can decompose plant cell walls and deposit carbon back in the soil. Scientists supported by the Department of Energy’s Office of Science are investigating these processes and how we may be able to use them to make biofuels production cheaper and more efficient.

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Where does the heat go when a glass melts into a liquid? Not to changing the vibrations of atoms….

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Engineered stacked perovskite layers harvest light or create light via layer edges.