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

Controlling Light to Accelerate Electrons in Just Meters

A novel paradigm for pushing energy in a particle accelerator method could dramatically shrink future accelerators.

Flowchart with nine dark gray spheres clumped, on top of a graphic of yellow particles with a black background.

Watching Electrons Harvest Light at the Nanoscale

Insight into charge generation induced by light could enable the design of better photocatalysts made from nanomaterials.

A tube of multicolored circle compressed in the center, followed by a burst of clumped particles being stretched, followed by a spectrum of particles in a thread, and lastly a spectrum of particles chained.

Elongated Ring Polymers Get Tied Up in Knots

Controlling the knotting of molecular chains offers new ties from polymer fluids to industrial applications.

“Multitasking” AI Tool Extracts Cancer Data in Record Time

Shape-shifting selenium; abrupt change found between selenium-70 and selenium-72

Scientists find the radioactive nucleus selenium-72 is football-shaped, answering a longstanding question about the nuclear shape of selenium isotopes.

Digging into the Roots of Phosphorus Availability

New root blotting technique visualizes relationship between root growth, microbial activity, and soil nutrients.

Increasing the Arsenal of Radioisotopes in the Fight Against Cancer

A new supply of a critical radioisotope advances personalized medicine.

Lab-Created Shock Waves Mimic Supernova Particle Accelerators

New laser-driven experiments and numerical simulations reveal an electron acceleration mechanism relevant to young supernova shock waves.

Depiction of polycrystalline ice in a cube shape looking like different pieces of sponge masses.

Machine Learning Probes 3D Microstructures

Machine learning-based algorithm characterizes materials’ microstructure in 3D and real time.

Stronger membranes help yeast tolerate bioenergy production chemicals

Incorporating sterols in the outer membrane of Yarrowia lipolytica makes it significantly more tolerant of ionic liquids.

Two blue opaque spheres connected in a pool of liquid.

Oil and Water Almost Mix in Novel Neuromorphic Computing Components

Lipid-based devices mimic brain-like processing

Graphic of purple spirals on the left and line wave graph on the right.

Machine Learning Speeds Molecular Motion Modeling

New approach yields fast, accurate model of how small organic molecules move in chemical processes.