New ARPA-E funding in enabling PNNL to develop two different technologies that could one day enable cars to run on biofuel made from seaweed grown in the open ocean.
PNNL's ThermalTracker software analyzes video with night vision, the same technology that helps soldiers see in the dark, to help offshore wind power be bird- and bat-friendly.
America's use of distributed wind — which is wind power generated near where it will be used — continues to grow, according to the 2016 Distributed Wind Market Report.
Steve Short, a nuclear engineer at Pacific Northwest National Laboratory, has been selected as a fellow of the National Society of Professional Engineers.
Scientists are taking their cues from fungi in the digestive tracts of cows, goats and sheep in the search for new ways to create sustainable fuels and medicines.
A genetic modification in fungi is more common than has been thought, offering scientists a new tool as they explore the use of fungi to convert biomass to fuels, chemicals and enzymes.
PNNL is collaborating with three small businesses to address technical challenges concerning hydrogen for fuel cell cars, bio-coal and nanomaterial manufacturing.
A new capability at PNNL will be able to replicate how nations process plutonium. Researchers will process small amounts of plutonium which they will analyze, using nuclear forensics techniques, to discover signatures.
PNNL scientists have developed a system to convert methane into an energy-rich substance that can be used as the basis for biofuels and even feed for cows that create the gas in the first place.
Pointing the finger at chemical criminals: Several scientists from PNNL and other institutions will discuss new methods and approaches at the American Chemical Society's national meeting in San Francisco April 2-6.
Using a natural catalyst from bacteria for inspiration, researchers have now reported the fastest synthetic catalysts to date for hydrogen production-- producing 45 million hydrogen molecules per second.
PNNL is leading a new, approximately $6 million project to develop a new streamlined process to quickly pare down heaps of algae species into just a few that hold the most promise for making biofuel.
Calcium carbonate found in chalk, shells and rocks is one of the most important materials on earth. New insights on how it turns into hard, strong materials will help scientists design materials needed for a low-carbon future.