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

Comparing the performance of palladium clusters of different sizes for water oxidation; (inset) calculated structure of the Pd6O6 cluster (red = oxygen, grey = palladium), a catalytic site for the reaction.

Palladium Cluster Size Matters

Groups of Palladium atoms found to have major effects on electrocatalyst performance.

Image shows the “stripes” (the alternating yellow and blue regions) of electronic charge alignment found in a ferroelectric thin film.

Towards Understanding Electronic Switching in Magnets

Researchers have invented a new x-ray imaging technique that could reveal key atomic-scale properties in ferroelectric magnetic materials.

High-energy x-ray diffraction pattern from a single grain of a gadolinium – cadmium alloy (shown in center) displaying the novel five-fold rotational symmetry, characteristic of an icosahedral quasicrystal.

A New Class of Magnetic Materials with Novel Structural Order

The discovery of the first binary magnetic quasicrystals will enable the unraveling of the fundamental relationship between the structure and magnetism in aperiodic materials.

Protons and x-rays permit direct, nondestructive imaging of melting and solidification of metal alloys.

Using Protons to Peer into Metal Solidification

Proton radiography is a new tool for imaging melting and solidification of metals.

Common Mineral Impurity Can Affect Uranium Mobility

Previously unknown role of titanium in subsurface chemistry revealed.

Breaking Down Enzymes’ Role in Biofuel Production

Molecular structures provide insights into biomass deconstruction.

Depiction of superionic phase of copper (blue) diffusing through the sulfur (yellow) sublattice.

Watching Ions Hop in Next Generation Battery Materials

Atomic-Scale, femtosecond time-scale measurements unravel the atomistic pathways and speed limits for copper migration through a nanocrystal.

Using a molecular template before atomic layer deposition leads to cavities in thin oxide films that act as shape-selective sieving layers for oxidations and reductions.

Adding Nanocavities to Catalyst Surfaces Enhances Chemical Selectivity

Adding an oxide sieve, a layer containing nanocavities, to a catalyst surface makes the catalyst selective for specific reactions and increases efficiencies for chemical processes.

Diamond anvil showing dents (arrowed) after being used to squeeze this new superhard material.

New Superhard Form of Carbon Dents Diamond

Squeezing creates new class of material built from clusters of carbon atoms.

X-ray computer tomography (CT) image showing solid carbonate (calcite, green) grown in a network of glass beads (blue).

Underground Storage of Carbon Dioxide—as a Solid

Nanoscale features in rocks enable more carbon dioxide to be trapped as a solid carbonate material underground.

High magnification microscopy images of silica bubbles.

Directed Evolution: Semiconductors Emulating Biology

Enzymes originating from marine sponges were intentionally altered to create a new enzyme that can make semiconductors in artificial cells.

A New Tool to Probe the Inner Workings of Rechargeable Batteries

A new spectroscopic “fingerprinting” technique has been developed at a DOE user facility to identify chemical degradation products deep inside a working rechargeable battery.