OCTOBER 2, 2018 News Release PNNL and LanzaTech Team to Make New Jet Fuel PNNL technology flies with Virgin Atlantic. ( Read More )
SEPTEMBER 28, 2018 News Release PNNL's Capabilities in Quantum Information Sciences Get Boost from DOE Grant and New Microsoft Partnership PNNL's quantum information sciences capabilities get boost from DOE grant and new Microsoft partnership. ( Read More )
SEPTEMBER 21, 2018 Feature Invited Review Article Emphasizes Developments in Ion Soft-landing ( Read More )
SEPTEMBER 19, 2018 Feature Stopping Fires before They Start: How a Salty Solution is Giving Lithium Metal Batteries a Safety Check ( Read More )
SEPTEMBER 5, 2018 Feature Energy-conducting Cable Bacteria's Interior Structure Revealed ( Read More )
AUGUST 26, 2018 Director's Column A Sidewalk that Repairs Itself? PNNL Cracks the Code for Self-Healing Cement Imagine a nascent crack in the sidewalk that heals itself rather than growing into an eyesore or a tripping hazard. ( Read More )
AUGUST 2, 2018 Feature Sustainable Jet Fuel: The Flight Path from Fundamental Science to Applied Technology ( Read More )
JULY 23, 2018 Feature Pharmaceutical Material Shows Promise for Better Grid-Scale Batteries ( Read More )
JULY 23, 2018 Feature Invited Article Reviews the Current State of Fuel Production from Waste Carbon ( Read More )
JULY 19, 2018 Staff Accomplishment Three PNNL Scientists Elected to the Washington State Academy of Sciences Three PNNL scientists elected to the Washington State Academy of Sciences. ( Read More )
JULY 16, 2018 News Release New Approaches to Chemical and Electrical Energy Conversions PNNL receives additional funding for electrocatalyst research to store and release energy. ( Read More )
JUNE 22, 2018 Feature How Wastewater Treatment Plants Could Be Pumping Out Fuel Instead of Sludge ( Read More )
JUNE 12, 2018 Feature Wet Aluminum Hydroxide and Oxyhydroxide Particles Release Hydrogen When Irradiated Vitrifying nuclear waste for storage is complicated by aluminum and understanding this behavior is vital. Research suggests that upon radiolysis, the properties of humid aluminum particles do not change substantially but hydrogen is formed. ( Read More )
