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Diamond optical cavities allow laser light (green arrow) to excite electrons on atoms held within the cavities, transferring information about the atoms outward via light (red arrow).June 2015Science Highlights

Miniscule Mirrored Cavities Connect Quantum Memories

New structures could accelerate progress toward faster computing and high-security data transfer across fiber optic networks. Read More »

Nucleobases (shown here is thymine) encode genetic information inside DNA.June 2015Science Highlights

Molecular Sunscreen: How DNA Protects Itself from UV Light

X-ray pulses from the Linac Coherent Light Source probe the molecular dynamics of photoexcitation. Read More »

Radium-224/lead-212 generator with the shield cap removed to show the tubing connections to the column.June 2015Science Highlights

DOE Isotope Program Announces Availability of Radionuclide Generators for Medical Research

Lead and bismuth systems are being produced to fill the nation’s need for short-lived, alpha-emitting isotopes. Read More »

The STAR detector measures the energy and angle of the electron from the W boson decay produced in the proton-proton collision.June 2015Science Highlights

Antiquark Makes Positive Contribution to Proton Spin

Scientists shed new light on a proton's spin, refining our understanding of nuclear physics. Read More »

Members of the DCal installation team in the ALICE detector.June 2015Science Highlights

Jetting into the Moments after the Big Bang

Upgraded capabilities ready to explore quarks and gluons ready at the Large Hadron Collider. Read More »

In this microfluidic water electrolysis device, the channels in which oxygen and hydrogen are generated by splitting water are separated by a chemically inert wall (red). The conduction of protons from one channel to the other, which is required for continuous operation, occurs via a Nafion® membrane cap (blue).May 2015Science Highlights

Can Small Go Big? Microfluidics Aid Quest for Artificial Photosynthesis

Small-scale device provides easy “plug-and-play” testing of molecules and materials for artificial photosynthesis and fuel cell technologies. Read More »

Dr. Charles McCrory is setting up a rotating disk electrode experiment, which is used to measure a material’s catalytic activity and stability under conditions that are required for a working water-splitting device.May 2015Science Highlights

Comparing Apples to Apples: Benchmarking Electrocatalysts for Solar Water-Splitting Devices

Objective comparison of catalyst performance may enable the development of systems for artificial photosynthesis. Read More »

Gallium arsenide nanowire arrays grown on a silicon substrate are studied using photoelectrochemistry.May 2015Science Highlights

Stacking Semiconductors for Artificial Photosynthesis

Nanowire-based design incorporates two semiconductors to enhance absorption of light. Read More »

Schematic view of the chlorine (Cl) addition - hydrochloric acid (HCl) elimination reaction with isobutene.May 2015Science Highlights

Roaming Dynamics in Bimolecular Reactions

Study reveals peculiar mechanism of radical addition-elimination, enabling more accurate modeling of combustion and other reactions. Read More »

Hot nanowires emit lattice vibrations known as phonons into underlying materials. When closely packed, phonon collisions can more efficiently transport heat away.May 2015Science Highlights

Staying Close and Keeping Cool

Hot nanostructures cool faster when they are physically close together. Read More »

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Last modified: 3/5/2015 5:08:02 PM