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

Polymeric sugars called Xyloglucans (black lines) were thought to tether cellulose microfibrils (red lines) in primary cell walls (top panel).

Tether No More: A Revised Model for Plant Cell Walls

Biomechanical studies challenge current depictions of plant primary cell wall architecture.

Chemical Shift Magnetic Resonance Imaging (MRI) of a lithium battery after charging.

Brains, Knees, . . . and now Batteries

Magnetic resonance imaging (MRI) method non-destructively images the chemical and structural changes in a lithium ion battery.

In the thermoelectric alloy copper antimony selenide (Cu3SbSe4, left), Sb atoms are bonded to four neighbors and are in the pentavalent (+5) charge state.

Being Uncoordinated Can Improve Thermoelectric Performance

Antimony atoms with uncoordinated electrons block flow of heat in thermoelectric materials.

Pumping up the Yield of Biofuels

A scalable catalytic process improves the yield of biofuels by 40%.

Unique catalyst is also capable of driving the reaction and then reversing it – converting electricity to hydrogen for storage and then converting it back to electricity for use.

Hydrogen Production Forwards and Backwards

A single reversible catalyst enables energy to be both stored and released on demand.

2D nanosheets of sodium cobalt oxide made from a novel new process.

Metal Oxide Nanosheets: Graphene's Inorganic Cousin

New, scalable manufacturing technique grows metal oxide nanosheets with astronomical aspect-ratios, opening the door to intriguing material properties.

In carrier multiplication (CM), a single photon from sunlight creates two electron-hole pairs

Nanocrystal Solar Cells Squeeze Extra Juice Out of Sunlight

Laboratory measurements of “carrier multiplication” verified in real solar energy photovoltaic devices made of tiny quantum dots.

Movement and coalescence of catalyst particles in response to aging in fuel cells.

Fuel Cell Catalysts Caught in the Act of Aging

Researchers have captured the first three-dimensional images of changes in shape, composition, and position of individual catalyst particles during electrochemical cycling.

The composite image shows some of the chemical species measured in a flat premixed flame at the Advanced Light Source.

Peering into the Flame

New insights from synchrotron-based studies are helping to assess the potential of new biofuels.

A New Tool to Probe the Inner Workings of Rechargeable Batteries

A new spectroscopic “fingerprinting” technique has been developed at a DOE user facility to identify chemical degradation products deep inside a working rechargeable battery.

Holes Are a Positive Thing: Designing Conductors for Solar Photovoltaics

Predicted by theory, and confirmed by experiments, novel materials are being discovered to improve photovoltaic efficiency.