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

A schematic illustration of the material stack.

Revealing Buried Layers: Exploring the Metal-Substrate Interface Layer in Superconducting Films

Researchers used a multimodal approach to determine the metal-substrate interface in a superconducting qubit material.

ORNL’s Frontier supercomputer earned the top ranking on the TOP500 list in June 2022, marking it as the world’s fastest computer at the time with 1.1 exaflops of performance.

Improving Computing Memory Performance for Scientific Discovery

A new framework employs usage patterns to improve data placement.

Researchers further illuminated the genetic diversity within the Aspergillus genus of fungi.

A Deeper Look into Fungal Species Reveals Biomanufacturing Potential

Researchers investigate the connections between Aspergillus species, demonstrating their usefulness for producing biofuels and bioproducts.

A guide RNA strand, in purple, guides CRISPR to a DNA strand. Scientists devised a method to identify genes that can be suppressed to customize microbes for biotechnology applications.

Investigating Cyanobacteria’s Many Paths to Adaptation

A new approach accelerates how quickly scientists can identify genes involved in environmental acclimation and understand bacterial stress.

A group of researchers in a laboratory, with four men standing up and a man and woman sitting down

Robotic Lab Revolutionizes Plant Bioengineering

A fast, automated, and high-throughput pipeline is improving the speed of plant engineering

Series of five different line graphs indicating how the code matched the experimental data fairly well

Improving Predictions for Fusion Device Transport

Researchers validate a new workflow for plasma transport models, aiding future fusion device design.

Illustration showing how different molecular surfaces result in pollutants moving through them differently, with a molecular diagram linked to a graph showing different probabilities. There is a series of three pictures above illustrating a farm, a connected power system, and a water filtration system.

Improving Continuum-Scale Models with Molecular-Scale Interface Science

Researchers propose a new approach to modeling adsorption processes that affect how pollutants move through soil, water, and rock.

A huge plume of brown smoke emerging from a volcano

Can AI Anticipate Earthquakes?

Automatic speech recognition predicts earthquake fault displacement.

Illustration showing a crystal structure, with balls connected by lines and a blue ball increasing in size moving above the structure

Thin Materials and Fat Electrons: A Recipe for New Quantum Phenomena

The 2D material cerium silicon iodide contains the same heavy electrons responsible for heavy fermion physics, something so far seen only in 3D materials.

Graphic showing how a thin film can go through compressive strain on top of a substrate to become superconducting as well as a line graph showing how the most strain induces superconductivity

Unveiling the Link Between High Pressure and Superconductivity

Researchers have learned how to retain superconductivity at ambient pressure in a new class of high temperature superconductors.

Improvements to Americium-241 processing can increase yield, decrease the amount of waste generated, and reduce the radiological dose workers receive.

Improving Large-Scale Domestic Production of Americium-241, a Critical Component in Smoke Detectors and Nuclear Batteries

Researchers explore the effects of radiation and harsh chemicals to optimize americium-241 production.

Artists’ depiction of a new potential cancer treatment vehicle—an engineered nanometer-size construct that holds a radioactive isotope that can be delivered to destroy cancer cells.

Killing Cancer with Radioactive Nanocrystals

Scientists have developed tiny nanocrystal particles made up of isotopes of the elements lanthanum, vanadium, and oxygen for use in treating cancer.