Case closed: Neutrons settle 40-year debate on enzyme for drug design
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The recently discovered element 117 has been officially named "tennessine" in recognition of Tennessee’s contributions to its discovery, including the efforts of the Department of Energy's Oak Ridge National Laboratory and its Tennessee collaborators at Vanderbilt University and the University of Tennessee.
Award-winning author Richard Rhodes, who wrote the book “The Making of the Atomic Bomb,” told an Oak Ridge audience that despite new forms of clean energy being developed, coal is still the world’s primary producer of energy, listing several reasons.
“In a world...
The Department of Industry’s Oak Ridge National Laboratory will host Energy Efficiency and Renewable Energy Industry Day Wednesday, Sept. 23 and Thursday, Sept. 24. Johney Green, director of ORNL’s Energy and Transportation Science Division, said Laboratory rese...
Secretary of Commerce Penny Pritzker visited the new Institute for Advanced Composites Manufacturing Innovation (IACMI) at Oak Ridge National Laboratory’s Manufacturing Demonstration Facility, praising the advances in manufacturing technology taking place in East T...
Keeping food fresh is no easy feat. Trials of transporting ice over long distances and the hazards of systems that rely on toxic gases riddle the pages of refrigeration history. And although cooling science has come a long way in the past two centuries, modern refrigeration has an environmental cost...
Jack Fellows, the new director of the Climate Change Science Institute at Oak Ridge National Laboratory, wants his organization to provide comprehensive information to policy makers and the general public to improve understanding of global climate change.
Oak Ridge National Laboratory engineers are trying to improve efficiency and performance in tiny engines in remote-controlled airplanes that have applications for aerial military surveillance.
Oak Ridge National Laboratory's Center for Computational Sciences is using supercomputers to design better and less expensive solar panels that can capture the sun’s rays more efficiently and maximize power production.
The ability to control nanoscale imperfections in superconducting wires results in materials with unparalleled and customized performance, according to a new study from the Department of Energy’s Oak Ridge National Laboratory.