Scientists, community leaders and others will gather Aug. 3-4 to celebrate the achievements of the first 20 years of EMSL, the Environmental Molecular Sciences Laboratory.
El-Khoury and Johnson are exploring the properties of extremely small structures that could, one day, change how we produce energy and manufacture chemicals.
PNNL scientists are part of a nationwide effort to learn more about the role of proteins in cancer biology and to use that information to benefit cancer patients.
Power plants could capture their carbon emissions while using half the energy of traditional carbon capture methods with water-lean carbon capture solvents.
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.
Working with researchers with Tokyo Tech's World Research Hub Initiative in Japan and Canada, Xantheas will combine laboratory methods with computational explorations to study the biological functions of serotonin and nicotine.
80 years after the Hindenburg disaster, it still influences perceptions about the use of hydrogen as a vehicle fuel, but hydrogen, like gasoline, can be handled and used safely.
For the first time, researchers have measured the force that draws tiny crystals together and visualized how they swivel and align. Called van der Waals forces, the attraction provides insights into how crystals self-assemble, an activity t
PNNL research has created a unique video that shows oxygen bubbles inflating and later deflating inside a tiny lithium-air battery. The knowledge gained from the video could help make lithium-air batteries that are more compact, stable and
PNNL is collaborating with three small businesses to address technical challenges concerning hydrogen for fuel cell cars, bio-coal and nanomaterial manufacturing.
Scientists trying to understand the paths crystals take as they form have been able to influence that path, revealing insights that could lead to better control of drug development, energy technologies. And food.
When water comes in for a landing on the common catalyst titanium oxide, it splits into hydroxyls just under half the time. Water's oxygen and hydrogen atoms shift back and forth between existing as water or hydroxyls, and water has the sli