Science Highlights | U.S. DOE Office of Science (SC)

Zooming in on Gluons' Contribution to Proton Spin

New data that "wimpy" gluons, the glue-like particles that bind quarks within protons, have a big impact on proton spin.

Confirmed: Heavy Barium Nuclei Prefer a Pear Shape

Cutting-edge experiment with a beam of radioactive barium ions provides direct evidence of nuclear pear-shape deformation.

Snakes on a plane: This atomic-resolution simulation of a peptoid nanosheet reveals a snake-like structure never seen before. The nanosheet’s layers include a water-repelling core (yellow), peptoid backbones (white), and charged sidechains (magenta and cyan). The right corner of the nanosheet’s top layer has been “removed” to show how the backbone’s alternating rotational states give the backbones a snake-like appearance (red and blue ribbons). Surrounding water molecules are red and white.

Understanding and Predicting Self-Assembly

Newly discovered “design rule” brings nature-inspired nanostructures one step closer.

A vector map of the measured deflections of an atomic-sized electron beam scanned across different polar domains in the ferroelectric bismuth ferrite. The image was recorded in about a minute by the new electron microscope pixel array detector.

New High-Capability Solid-State Electron Microscope Detector Enables Novel Studies of Materials

Device allows fast, precise measurements of electric and magnetic fields at the atomic level, providing insights into the next generation of electronic, energy production, and storage materials.

The discovery that electrically conductive, hair-like filaments on the surface of Geobacter bacteria could mark a new paradigm for the employment of biological materials in nanoscale electron devices.

Bacteria Hairs Make Excellent Electrical Wires

This discovery could lead to low-cost, non-toxic, biological components for light-weight electronics.

Hotter All The Way: Lithium Wall Contains Plasma Without Cooling It

Lithium walls open up access to new regimes for the fusion reactor.

Supercomputers Predict New Turbulent Interactions in Fusion Plasmas

Cutting-edge simulations provide an explanation for a mystery over half a century old.

DOE Isotope Program Provides Target Material for the Discovery of Superheavy Elements

New element 117 and its decay products establish the existence of long-sought Island of Stability.

A new algorithm reduces timing uncertainty by a factor of 300, revealing ultrafast dynamics on timescales as short as a quadrillionth of a second.

Creating a Better Way to Find Out “When”

Computer algorithm recovers histories and dynamics on timescales much faster than uncertainties inherent in experimental data.

Selective etching of palladium (blue) from palladium-platinum core-shell nanoparticles (left) yields hollow platinum (grey) nanocages with high activity for the oxygen reduction reaction.

Hollow and Filled with Potential

Hollow shape-selected platinum nanocages represent a new class of highly active catalysts.

This results demonstrate a temporal resolution sufficient to directly image chemical reactions.

Capturing Molecular Motion with Relativistic Electrons

The world’s fastest images of nitrogen molecules rotating in a gas were captured using electron diffraction.

Energy filtered image of CoFe2C rods showing the carbon elemental map (left). Theoretical image of the CoFe2C structure showing the frontier molecular orbitals (right).

Small and Powerful: Pushing the Boundaries of Nano-Magnets

Newly discovered particles behave as powerful magnets that, one day, could change data storage.