PNNL is collaborating with three small businesses to address technical challenges concerning hydrogen for fuel cell cars, bio-coal and nanomaterial manufacturing.

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

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.

Yong Wang, a catalysis researcher at PNNL and WSU, was selected to receive the annual fellow award given by the Industrial & Engineering Chemistry division of the American Chemical Society.

At next week's American Chemical Society meeting, experts spanning a wide range of disciplines will get together to toss around ideas on technologies to capture the carbon dioxide.

At the center of many research teams are women — scientists and engineers who chase mystery and replace it with discoveries.

Scientists have learned more about how molds become cellular factories that can synthesize a range of diverse products.

PNNL's Ruby Leung and Johannes Lercher elected to membership in the National Academy of Engineering.

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.