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Nanometer-sized junctions between two types of two-dimensional semiconductors could replace conventional wider three-dimensional junctions.06.08.16Science Highlight

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. Read More »

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.06.07.16Science Highlight

Atomic Sculpting with a Microscope

A new tool allows atomic 3D printing. Read More »

Two-dimensional snapshot used to reconstruct the 3D image of a particle.06.07.16Science Highlight

Saturday Night at the Movies: 3D Sneak Preview of Dancing Platinum Particles at Atomic Resolution

Three-dimensional structure of nanocrystals in solution determined with atomic resolution using a new technique. Read More »

Progressively magnified images of graphene nanoribbons grown on germanium semiconductor wafers.06.07.16Science Highlight

Growing Graphene Ribbons in One Direction

New method to fabricate graphene nanoribbon arrays on semiconductor wafers turns semimetal into semiconductor. Read More »

Confined in droplets, exotic phases of liquid crystals have been simulated (left) and experimentally observed (right).06.07.16Science Highlight

Tiny Droplets… Lead to Exotic Properties

Chameleon-like color changes are observed by confining liquid crystals within small drops. Read More »

The ring pattern from the new transmission X-ray diffraction analysis is from the polycrystalline nature of the alloy - in other words, it indicates that the atoms are arranged in small crystalline regions (called grains) that have many different orientations.06.07.16Science Highlight

Finding a Needle in a Crystalline Haystack

New X-ray technique reveals the presence of one-in-a-million large crystalline regions from metals fatiguing—stabilization schemes could lead to impervious metals. Read More »

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.06.07.16Science Highlight

New See-Through Material for Electronics

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

Perovskite-based nanowire lasers are the most efficient known.06.07.16Science Highlight

World’s Most Efficient Nanowire Lasers

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

Researchers discovered how green fluorescent proteins (center) react with water (shown around the edges of the protein).04.30.16Science Highlight

New Insight on a Familiar Glow

A new approach to investigating green fluorescent protein provides a vital tool for unraveling molecular-level details of processes important in biology and light harvesting for energy use. Read More »

Defects (red and blue markings) surprisingly self-organize in active liquid crystal film of protein filaments and such dynamic reorganization could lead to new approaches for designing self-healing materials.12.14.15Science Highlight

Defects Lead to Order

Surprising order found in bundles of protein filaments that move chaotically and form liquid crystals that could led to novel self-healing. Read More »

Last modified: 3/9/2015 10:40:04 AM