Science Highlights

Schematic representation of the atomic lattice of Tellurium-Antimony (Sb)-Germanium (Ge)-Silver (Ag) thermoelectric doped with rare earth dysprosium (Dy).

Rare Earth Atoms Make the Best Thermoelectrics Better

Small addition of rare earth element makes a big difference in converting heat to electricity.

To map the oceanic subsurface at a scale and resolution previously unknown, EMGeo unites the latest in computing power with advanced geophysical imaging techniques.

Finding Hidden Oil and Gas Reserves

Supercomputers + Software + electromagnetic images yield new way to discriminate underground deposits from surrounding geology.

Elementary molecular model of Plutonium Dioxide.

A Major Advance in Understanding Plutonium

Observation of a plutonium nuclear magnetic resonance ends 50-year search and provides a key to deciphering its complex properties.

Spatially resolved activation energy map overlaid with sample topography

Catching Lithium Ions in Action in a Battery Electrode

New microscopy with nanometer-sized resolution may bring revolutionary new understanding to energy storage technologies.

Electron momentum energy map of an oxygen (O2) molecule

The Dance of Atoms in Molecules Captured in Ultrafast Time

The first real-time images of two atoms vibrating in a molecule have been captured using a technique called laser-induced electron diffraction.

The structure on the left shows the arrangement of atoms in a portion of the photosynthetic PSII complex that uses light to oxidize water.

Mimicking Photosynthesis for Production of Solar Fuels

A step closer to an artificial system using sunlight to produce hydrogen from water

The proposed catalytic cycle for manganese porphyrin-catalyzed C-H fluorination reactions is consistent with theoretical calculations.

New Catalytic Approach Builds Molecules with Specific Functionality More Safely and Efficiently

Rapid creation of carbon-fluorine bonds may lead to improved production of drugs, agrochemicals and positron emission tomography (PET) tracers.

Future Solar Cells: Thinner, Brighter, and Better

New theory describes light management in thin-film solar cells.

Oxygen vacancy maps reveal that the overall composition and the degree of oxygen order varies drastically between films of the same cation composition but grown on different substrates.

Seeing the Voids in Fuel Cell Materials at the Atomic Scale

New microscopy method opens the door to understanding atomic-scale variations in chemistry and improved materials performance in solid oxide fuel cells.

Electron microscope image of new catalyst structure showing a single layer of platinum coating a palladium nanoparticle.

Improved Catalysts for Next Generation Fuel Cells

New design significantly increases the lifetime and reduces the platinum content in electrocatalysts needed for advanced fuel cells for automotive applications.