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2013

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The photosynthetic megacomplex from a cyanobacterium.12.30.13Article

Observing the Sparks of Life

EFRC researchers isolate a photosynthetic complex — arguably the most important bit of organic chemistry on the planet — in its complete functioning state. Read More »

Scientists Chang-Jun (CJ) Liu, Xuebin Zhang, and Mingyue Gou 12.23.13From the Labs

Enlisting Cells' Protein Recycling Machinery to Regulate Plant ProductsExternal link

New molecular tools for controlling production of compounds important for flavors, human health, and biofuels. Read MoreExternal linkage

Solar storms unleash bursts of radiation. 12.18.13From the Labs

Supercomputers Capture Turbulence in the Solar WindExternal link

Berkeley Lab visualizations could help scientists forecast destructive space weather. Read MoreExternal linkage

The Joint Center for Artificial Photosynthesis (JCAP)-North, a DOE Energy Innovation Hub aimed at developing the technology to commercially generate fuels directly from sunlight. 12.16.13From the Labs

Turning Over a New LeafExternal link

New video shows how researchers at the Joint Center for Artificial Photosynthesis are striving to produce clean, abundant fuels directly from sunlight. Read MoreExternal linkage

Arapaima gigas is an air-breathing fresh water fish in the Amazon Basin that swims with impunity through piranha-infested waters.12.12.13Article

Energetic Science and Piranha-Proof Armor

Unique structure of incredible, adaptable armor revealed through Berkeley Lab’s Advanced Light Source. Read More »

Components of the PHENIX detector at Brookhaven's Relativistic Heavy Ion Collider (RHIC). 12.06.13From the Labs

Tiny Drops of Hot Quark Soup—How Small Can They Be?External link

New analyses of deuteron-gold collisions at RHIC reveal that even small particles can create big surprises. Read MoreExternal linkage

AAAS Logo12.03.13Article

Office of Science Salutes its New AAAS Fellows

Ten researchers join a distinguished company at the American Association for the Advancement of Science. Read More »

Scanning electron microscope image of sulfur graphene oxide.11.27.13Article

Toward 300 Miles on a Single Charge?

Berkeley Lab scientists design a high-performance, long cycle-life lithium-sulfur battery. Read More »

Brookhaven Lab physicist Antonio Checco.11.25.13Article

Singin’ in the Rain

Ultra water-repellent material developed at Brookhaven Lab may lead to many warming applications. Read More »

This prototype lithium ion battery, made in a Stanford lab, contains a silicon electrode protected with a coating of self-healing polymer. 11.21.13From the Labs

Scientists Invent Self-Healing Battery ElectrodeExternal link

Researchers have made the first battery electrode that heals itself, opening a new and potentially commercially viable path for making the next generation of lithium ion batteries. Read MoreExternal linkage

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