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

Conceptual art showing the rare earth element promethium in a vial surrounded by an organic ligand. Scientists have discovered hidden features of promethium, opening a pathway for research on other lanthanide elements.

In an Advance for Promethium Production, Researchers Get a New View of the Element’s Properties

Scientists characterize a promethium coordination complex for the first time, furthering the understanding of difficult-to-study lanthanide elements.

The image using Coherent Correlation Imaging shows the areas where the borders of magnetic domains (called domain walls) accumulate over time and thus maps the presence of pinning sites. The image field of view is 700 nanometers.

Watching Magnetic Materials Get Organized in Real Time

A revolutionary Coherent Correlation Imaging method visualizes electronic ordering in magnetic materials and opens a path to new data storage technologies.

Visualization of a 3D assembly of DNA-guided nanoparticles and frameworks (top). Multi-element template (teal) framework of tetrahedra (bottom). Zoomed-in portion shows iron (Fe), silica, platinum (Pt), and gold (Au).

“Seeing” More Sharply into Self-Assembled Nanomaterials

Researchers leveraged advanced X-ray imaging for a nondestructive way to peer inside complex 3D nanomaterials with record resolution.

Two examples of silicon photoelectrodes. Left: Micropillar silicon with cobalt catalysts reduces carbon dioxide (CO2) to methanol (CH3OH). Right: Porous silicon with rhenium catalysts reduces carbon dioxide (CO2) to carbon monoxide (CO).

For Solar Fuels, More Surface Area on Photoelectrodes Makes a Difference

High-surface area silicon improves light-driven reactions of carbon dioxide.

This research studied the reduction of carbon monoxide to methanol using ruthenium complexes. Information about the ruthenium came from data collected at the National Synchrotron Light Source II.

An Improved Domino Chain for Sustainable Methanol Synthesis

Scientists used a series of three distinct, sequential reactions to transform carbon monoxide into methanol using proton-electron mediators.

Better Together: New 2D X-ray Multilayer Lens Overcomes Alignment Challenge

This new Laue lens system received a 2022 Microscopy Today Innovation Award.

Silica Films Mean Better Catalysts in Confined Two-Dimensional Spaces

Covering metal catalyst surfaces with thin layers of oxide materials can enhance chemical reactions.

Scientists Twist X-Rays with Artificial Spin Crystals

Patterned arrays of nanomagnets produce X-ray beams with a switchable rotating wavefront twist.

To Make Valuable Bioproducts, Pick the Right Solvent Pretreatment

Three common solvents for pretreating switchgrass yield lignin extracts with the potential for making different valuable bioproducts.

Artificial Intelligence Agents Argue to Enhance the Speed of Materials Discovery

Using an ensemble of artificial intelligence (AI) agents enabled faster, more accurate data analysis of synchrotron x-ray data.

High-Energy X-Rays Open a New View of Degradation in Potential Fusion Reactor Material

State-of-the-art X-ray techniques found hidden damage in neutron irradiated silicon carbide, a possible structural material for future fusion reactors.

Quantum Materials Cloak Thermal Radiation

A unique coating camouflages the temperature of an underlying material