Featured Articles

This image shows the results of calculations aimed at determining which of six chemical elements would make the best catalyst for promoting an ammonia synthesis reaction. 07.11.14From the Labs

Uncertainty Gives Scientists New Confidence in Search for Novel MaterialsExternal link

SLAC, Stanford advance will benefit thousands of computational studies in wide range of fields. Read MoreExternal linkage

This image is a network graph—called a “minimum spanning tree”—showing the 7,410 DFT-predicted stable compounds from the Open Quantum Materials Database (OQMD) at the time the JOM article was completed.07.09.14Article

From Human Genome to Materials “Genome”

Government initiative seeks to speed the pace of materials discovery and innovation. Read More »

Materials can be described as being on a spectrum from a perfectly ordered crystal to a perfectly disordered anticrystal. 07.07.14University Research

Consider the ‘Anticrystal’External link

Physicists at the University of Pennsylvania and the University of Chicago have evidence that a new concept should undergird our understanding of most materials: the anticrystal, a theoretical solid that is completely disordered. Read MoreExternal linkage

Graphical representation of the chemistry in the early stages of soot formation. 07.01.14From the Labs

Up in Flames: Evidence Confirms Combustion TheoryExternal link

Berkeley Lab and University of Hawaii research outlines the story of soot, with implications for cleaner-burning fuels. Read MoreExternal linkage

Advanced Light Source images of a Cu2SeO3 sample show five sets of dual-peak skyrmion structures, highlighted by the white ovals. 06.25.14From the Labs

Advanced Light Source Provides New Look at SkyrmionsExternal link

Skyrmions, subatomic quasiparticles that could play a key role in future spintronic technologies, have been observed for the first time using x-rays at Berkeley Lab’s Advanced Light Source. Read MoreExternal linkage

Thymine – the molecule in the foreground – is one of the four basic building blocks that make up the double helix of DNA. 06.23.14From the Labs

Scientists Use X-rays to Look at How DNA Protects Itself from UV LightExternal link

SLAC research reveals rapid DNA changes that act as molecular sunscreen. Read MoreExternal linkage

An X-ray laser pulse at SLAC’s Linac Coherent Light Source probes a supercooled water droplet (center, left). 06.19.14From the Labs

Scientists Take First Dip into Water’s Mysterious ‘No Man’s Land’External link

Observations of the strange state of liquid water in frozen conditions made by scientists at SLAC National Accelerator Laboratory will improve our understanding of the ubiquitous but unusual H2O. Read MoreExternal linkage

We live atop the thinnest layer of the Earth: the crust. Below is the mantle (red), outer core (orange), and finally inner core (yellow-white). 06.18.14From the Labs

Composition of Earth’s Mantle RevisitedExternal link

Research at Argonne’s Advanced Photon Source recently suggested that the makeup of the Earth’s mantle is significantly different from what was previously thought. Read MoreExternal linkage

Brookhaven physicist Oleg Gang and Stony Brook University postdoctoral researcher Sunita Srivastava. 06.11.14From the Labs

DNA-Linked Nanoparticles Form Switchable "Thin Films" on a Liquid SurfaceExternal link

Possible pathway to adjustable filters, surfaces with variable mechanical response, or even new ways to deliver genes for biomedical applications. Read MoreExternal linkage

Official groundbreakers for Ames Laboratory's new Sensitive Instrument Facility. 06.09.14From the Labs

Ames Laboratory Breaks Ground on Sensitive Instrument FacilityExternal link

13,300 square-foot facility will house state-of-the-art instruments which advance the Lab’s role in materials characterization and support the Department of Energy’s science mission. Read MoreExternal linkage

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