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

Rendering of carbon nanothreads as suggested by characterization techniques.

Carbon Nanothreads from Compressed Benzene

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

Map of carbon dioxide dissolution across the Bravo Dome gas field.

Carbon Sequestration in New Mexico’s Bravo Dome

Study of natural reservoir provides new clues for the long-term viability of geological carbon dioxide storage.

Top view (left) and side view (right), illustrating the porous and layered structure of a highly conductive powder (Ni3(HITP)2), precursor to a new, tunable graphene analog.

Towards a Tunable Graphene-like Two-Dimensional Material

Researchers have created a porous, layered material that can serve as a graphene analog, and which may be a tool for storing energy and investigating the physics of unusual materials.

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.

Disruption of Mediator rescues growth and fertility in Arabidopsis low lignin mutants.

Mediating Biofuel Complexity through “Mediator” Modification

Research points to more efficient and lower cost routes to high-yield biomass-derived renewable fuels.

A single photon is absorbed by a pair of pentacene molecules to generate an energetically excited state consisting of a bound electron-hole pair (i.e., a singlet exciton) and involving the electron orbitals of both pentacene molecules (shown on the left).

Two-for-One Deal for Photovoltaics

Process doubles photocurrent from visible sunlight in organic solar cells.

The structure of the iron MOF showing iron (orange), nitrogen (blue), and carbon (gray) atoms, as viewed along the triangular channels.

Fewer Steps to Higher Octane Gasoline in Petroleum Refining

A novel metal-organic framework (MOF) efficiently separates higher octane components from the low value ones, offering great potential for significant cost reduction in gasoline production.

The crystal structure of the niobium pentoxide (Nb2O5) electrode allows for 2-dimensional diffusion of lithium ions during charging and discharging cycles.

The Best of Both Worlds

Researchers create materials that can store lots of energy and deliver it quickly.

Calculations predict the zeolite structure schematically shown in the figure will effectively capture methane from a low-quality natural gas mixture of carbon dioxide (CO2) and methane (CH4).

Discovery of New Materials to Capture Methane

Predicted materials could economically produce high-purity methane from natural gas systems and separate methane from coal mine ventilation systems.

Diagram showing the properties of a material as temperature and chemical composition (phosphorus level in this study) are varied.

What Causes High-temperature Superconductivity?

A phase change at absolute zero temperature may provide key insights into the decades-old mystery of high-temperature superconductivity.

Crystal structure of CoSb3(1-x)Ge1.5xTe1.5x

Making the Right Substitution for Better Thermoelectrics

Exploiting the self-organizing nature of atoms to block heat transfer and improve thermal-to-electrical energy conversion.

Scanning electron microscopy of conductive carbon fibers coated with metal oxide nanowires...

Nano-Composite Designs for Energy Storage

Nano-porous metal oxide coatings on carbon fiber dramatically enhance the electrical storage capacity for supercapacitors.