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

Palladium-nickel nanoparticles (top structural model) are synthesized and then exposed to reactive gases (lower right) while being probed with high-energy x-rays.

Optimizing Atomic Neighborhoods for Speedier Chemical Reactions

Clusters with longer separations between atoms had enhanced catalytic activity.

Artist’s conception highlighting key features of electron behavior in bulk sodium bismuth (Na3Bi) and cadmium arsenic (Cd3As2).

Electrons Move Like Light in Three-Dimensional Solid

Tracking electronic motion in a graphene-like bulk material shows fast electrons in all dimensions.

Crystal structure of the parent compound of a calcium-strontium-based cuprate superconductor [(Ca/Sr)2CuO3]

Predicting Magnetic Behavior in Copper Oxide Superconductors

New theoretical techniques predict experimental observations in superconducting materials.

Top view (left) and side view (right), illustrating the porous and layered structure of a highly conductive powder (Ni3(HITP)2), precursor to a new, tunable graphene analog.

Towards a Tunable Graphene-like Two-Dimensional Material

Researchers have created a porous, layered material that can serve as a graphene analog, and which may be a tool for storing energy and investigating the physics of unusual materials.

The schematic shows the molecular structure of a protein.

Deciphering Distinct Atomic Motions in Proteins with Dynamic Neutron Scattering

Combining computer simulations with laboratory measurements provides insights on molecular-level flexibility.

Schematic image indicating the inferred intertwining of the superconducting wave function (green) with the envelope function (blue) for the atomic magnetism.

Intertwining of Superconductivity and Magnetism

Coexistence of two states of matter that normally avoid one another is revealed by inelastic neutron scattering experiments.

A series of x-ray scattering images are taken at ultrafast time intervals with an x-ray laser after excitation with an infra-red source that energizes the vibrational modes of a Germanium crystal.

X-ray Laser Used to Produce Movies of Atomic-scale Motion

Stroboscopic x-ray pulses scatter from a vibrating crystal and reveal how energy moves.

Breaking Down the Mechanisms of Biomass Deconstruction

Study reveals insights into plant structural changes during bioenergy pretreatments.

The figure shows measured electron bunch images with lasing suppressed (top left) and full lasing (right).

Making the Old New Again: Measuring Ultrashort X-ray Laser Pulses

Researchers have developed a powerful new diagnostic tool for the Linac Coherent Light Source (LCLS) with femtosecond resolution.

Nanocrystals enable new electrically-controlled windows.

Smarter Smart Windows

Thin coating of nanocrystals embedded in glass can electrically control light and heat from sunlight as it passes through a window.

The one-armed antibody, onartuzumab (pink) binds to the receptor tyrosine kinase, MET (green and blue) found on the surface of cells preventing the binding of hepatocyte growth factor (HGF) (red) disrupting the development and growth of tumors.

Biomolecular Structure Studies Advance an Antibody Approach to Cancer Therapy

Crystal structures obtained at the Advanced Light Source helped inform Genentech about the binding mechanism of a unique antibody that targets multiple cancer types.

Copper (Cu) nanorods grown using physical vapor deposition.

Downsizing Has Its Rewards

New Theory has Guided Experiments for Making the Smallest Possible Metal Rods Useful as Air-tight Sealants.