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

Researchers from the Molecular Foundry, working with users from Columbia University led by Latha Venkataraman, have created the world’s highest-performance single-molecule diode using a combination of gold electrodes and an ionic solution.

Viable Single-Molecule Diodes

Major milestone in molecular electronics scored by Molecular Foundry and Columbia University team.

Schematic drawing shows an electron (gold sphere) moving in the direction of the green arrow on the surface of a topological crystalline insulator. In this material, the electron’s quantum-mechanical spin (up) (blue arrow) is coupled with the direction of its motion in such a way that reversing its direction of motion would reverse the direction of the spin (down).

You Can Have Your Conductor and Insulator, Too

Scientists synthesized a theoretically-predicted material with unusual current-carrying properties that could open the door for next-generation electronics.

A stripe-shaped magnetic region (domain), shown in blue (top left) in an ultrathin film device (orange structure). The narrowing region of the device causes the current distribution to change (two of the three red arrows change direction), leading to the breakdown of the magnetic domain into circular disk-shaped bubbles, called skyrmions (bottom left) Magnetic skyrmion bubbles (bottom right) were experimentally observed using magnetic imaging.

Creating Novel Magnetic Islands for Spintronics

Generating and moving small, stable magnetic islands at room temperature could be the ticket to more energy-efficient electronics.

Resonant inelastic x-ray scattering data show the existence of a new quasiparticle in strontium iridate (Sr2IrO4).

X-ray Induced Quasiparticles: New Window on Unconventional Superconductivity

Creation of new neutral-charge, long-life quasiparticles may help explain high-temperature superconductivity.

The newly-proposed structure of ceric ammonium nitrate, with an oxygen bridge, may explain why this popular industrial reagent is so versatile.

What CAN It Be?

Elucidating Cerium Solution Chemistry

Laser Detection of Actinides and Other Elements

New technique measures uranium, thorium, and palladium with efficiencies up to 500 times greater than current standard.

A Large-Area Detector for Fundamental Neutron Science

New scalable cost-effective ultracold neutron detector has many applications.

Discovered: Tiny Drops of “Perfect” Fluid that Existed in the Early Universe

Particles colliding at nearly light speed reveal information about the true nature of matter.

Up and Down Quarks Favored Over Strange Ones

The proton's primary building blocks, up and down quarks, are produced more often than strange quarks in scattering experiments.

Scientists reported the first direct detection of a hydroperoxyalkyl radical—a class of reactive molecules denoted “QOOH”—that are key intermediates in combustion and atmospheric chemistry.

Combustion’s Mysterious “QOOH” Radicals Exposed

Direct measurement of an elusive but critical combustion molecule leads to more accurate models of ignition chemistry.

Specially designed, extremely small metal structures can trap light.

Light Speed Ahead!

Surface plasmons move at nearly the speed of light and travel farther than expected, possibly leading to faster electronic circuits.

When gaseous carbon dioxide (center) is dissolved in water, its water-fearing or hydrophobic nature creates a cylindrical cavity in the liquid, setting the stage for the proton transfer reactions that produce carbonic acid

The Importance of Hydration

Spectroscopy combined with theory and computation determines the interaction between carbon dioxide and water.