Science Highlights

Formation of large-scale 3D binary crystals with predictable lattice symmetry, as determined by the cubic geometry and DNA-encoded interactions between cubes and spheres (scale bar: 500nm)

Nanoscale Building Blocks and DNA “Glue” Help Shape 3D Architectures

New approach to design and assemble tiny composite materials could advance energy storage.

To help identify routes to mitigate toxic polycyclic aromatic hydrocarbons and soot formation from combustion engines, scientists identified the full list of products in a key reaction between phenyl radicals and oxygen.

Up in Flames: Phenyl Oxidation Product Distribution

Researchers determine the reaction pathway to how soot and other toxic components form in combustion systems.

The top figure shows the energy/time distribution of the twin bunches measured with an X-band transverse deflector.

Two-color X-rays Give Scientists 3-D View of the Unknown

Pairs of precisely tuned X-ray pulses uncover ultrafast processes and previously unmapped structures.

High-speed photographs of a falling water droplet on a nanostructured surface (top) before, (middle) during, and (bottom) after impact.

Super Water-Repellant Coatings Can Now Take the Pressure

Careful tuning of a surface at the nanoscale could lead to robust materials for solar panels, other uses.

Atomic structure of the adsorbed carbon dioxide (grey sphere bonded to two red spheres) inserted between the manganese (green sphere) and amine (blue sphere) groups within the novel metal-organic framework, forming a linear chain of ammonium carbamate (top)

Cooperative Carbon Capture by a Novel Material that Mimics a Plant Enzyme

Innovative materials adsorb carbon dioxide via an unprecedented cooperative insertion mechanism.

Diamond optical cavities allow laser light (green arrow) to excite electrons on atoms held within the cavities, transferring information about the atoms outward via light (red arrow).

Miniscule Mirrored Cavities Connect Quantum Memories

New structures could accelerate progress toward faster computing and high-security data transfer across fiber optic networks.

Nucleobases (shown here is thymine) encode genetic information inside DNA.

Molecular Sunscreen: How DNA Protects Itself from UV Light

X-ray pulses from the Linac Coherent Light Source probe the molecular dynamics of photoexcitation.

Most Complete Functional Map of an Entire Enzyme Family

Researchers develop a new process for annotating cellulose-degrading enzymes.

Dr. Charles McCrory is setting up a rotating disk electrode experiment, which is used to measure a material’s catalytic activity and stability under conditions that are required for a working water-splitting device.

Comparing Apples to Apples: Benchmarking Electrocatalysts for Solar Water-Splitting Devices

Objective comparison of catalyst performance may enable the development of systems for artificial photosynthesis.

An interferogram showing the photoelectron energy vs. delay time between identical femtosecond pump and probe pulses, which excite coherent three-photon photoemission at a single crystal silver surface.

Exciton, Exciton on the Wall

For the first time, researchers detect how light excites electrons in metal.

Hot nanowires emit lattice vibrations known as phonons into underlying materials. When closely packed, phonon collisions can more efficiently transport heat away.

Staying Close and Keeping Cool

Hot nanostructures cool faster when they are physically close together.

The polyborate anions wrap up the californium cations and bond to it at eight different sites.

Going Back to Californium: A Changing View of Covalency

Unusual structure, bonding, and properties may provide a new possibility for a californium borate.

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