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

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.

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.

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.

Most Complete Functional Map of an Entire Enzyme Family

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

The new patent includes a compact programmable NANOrotator that allows the fabrication of “smart” tips.

Chemical Fingerprinting of Materials Takes More Than Just a Dab of Ink

Researchers patent new x-ray microscopy technology to “see” both the chemical and physical aspects of materials.

Rendering of carbon nanothreads as suggested by characterization techniques.

Carbon Nanothreads from Compressed Benzene

One-dimensional material has a diamond-like building block.

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 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.

A fragment of the crystal structure of the new ice is shown where the oxygen atoms are blue and the molecular hydrogen atoms pink.

Inside Ice Under High Pressure

New insights from neutron diffraction reveal changes to atomic structure.

Substituting Co into d-MoN gave enhanced activity which approaches that of Pt metal, and which is competitive with that of the best known non-noble metal alternatives.

Neutrons Reveal New Electrocatalyst Family for Producing Hydrogen Fuel

New catalyst material provides potential for cheaper renewable hydrogen production.