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

A metal oxide nanoparticle gel when agitated with a force greater than the yield stress of the gel, which is the force necessary to make the gel flow.

Understanding the Properties of High Tech Gels Used in 3-D Printing

Gels made up of nanoparticles hold together due to their electrostatic interactions and collapse with agitation.

Tuning topology and adhesion of metal nanomeshes has led to super stretchable, transparent electrodes that don’t wear out.

Nano-stiltskin: Turning Gold into … See-through Rubber

New metal nanomesh leads to super stretchable and transparent gold electrodes that don’t wear out.

The schematic shows protected edges that allow the propagation of these magnetic waves in a single direction along the edge of the crystal.

Surf’s Up: Magnetic Waves on the Edge

First realization of a novel material that can conduct magnetic waves on its edge, but not within its bulk.

This artistically enhanced depiction shows an atom being hit by a strong rosette-shaped laser field (purple), ripping an electron (green) from the parent atom that then re-collides with the atom.

Combining Electrons and Lasers to Create Designer Beams for Materials Research

Tabletop laser systems generate extreme ultraviolet probes will advance research towards a new generation of energy-conserving electronics.

The atomic force microscopy image of the junction between the graphene domains shows an electron-deficient region.

This Message Will Self-Destruct

New electron-beam writing technique controls electronic properties for future on-demand re-configurable electronics.

The cross-section shows key features of a new solar cell architecture.

Keep it Simple: Low-Cost Solar Power

A simplified architecture leads to efficiencies rivaling conventional silicon solar cells.

Electrons have distinct energy levels where the energy is minimized, similar to a ball rolling down a mountain to a valley.

Laser Manipulates Electronic Properties

Dressing electrons with a rotating field of laser light creates distinct, controllable states, opening the door for innovative electronics.

Nanometer-sized junctions between two types of two-dimensional semiconductors could replace conventional wider three-dimensional junctions.

Patterning Smaller Junctions for Ultrathin Devices

Patterned arrays of nanometer-sized connections in two-dimensional semiconductors could enable ultrathin integrated circuits for smartphones and solar cells.

Films integrated into the cell created an efficient solar-to-hydrogen cell using Earth-abundant cobalt rather than rare and expensive metals.

Hydrogen Production from a Relative of Fool’s Gold

Affordable, Earth-abundant catalyst achieves efficient solar-driven hydrogen fuel production.

When light is absorbed by solar cells to make electricity, electrons and “missing electrons” are generated that move through the layers of materials in typical solar cells.

New See-Through Material for Electronics

A low-cost, stable oxide film is highly conductive and transparent, rivaling its predecessors.

Perovskite-based nanowire lasers are the most efficient known.

World’s Most Efficient Nanowire Lasers

Materials with extraordinary performance in solar cells are discovered to be efficient, tunable lasers at room temperature.

The crystallized oxide (lighter regions) spelling the word “small” was “printed” on a non-crystallized layer (darker gray) by a well-controlled beam in an electron microscope.

Atomic Sculpting with a Microscope

A new tool allows atomic 3D printing.