Filter News
Area of Research
- (-) Clean Energy (15)
- (-) Neutron Science (3)
- (-) Nuclear Science and Technology (3)
- (-) Supercomputing (6)
- Advanced Manufacturing (3)
- Biological Systems (1)
- Biology and Environment (10)
- Computational Engineering (1)
- Computer Science (1)
- Isotopes (3)
- Materials (12)
- Materials for Computing (2)
- Mathematics (1)
- National Security (1)
- Quantum information Science (3)
News Topics
- (-) Bioenergy (3)
- (-) Composites (9)
- (-) Isotopes (1)
- (-) Mathematics (1)
- (-) Net Zero (1)
- (-) Polymers (7)
- (-) Quantum Science (4)
- (-) Space Exploration (5)
- 3-D Printing/Advanced Manufacturing (23)
- Advanced Reactors (5)
- Artificial Intelligence (3)
- Big Data (5)
- Biology (3)
- Biomedical (8)
- Biotechnology (1)
- Buildings (13)
- Chemical Sciences (3)
- Clean Water (4)
- Climate Change (7)
- Computer Science (23)
- Coronavirus (4)
- Critical Materials (7)
- Decarbonization (4)
- Energy Storage (24)
- Environment (18)
- Exascale Computing (1)
- Frontier (1)
- Fusion (2)
- Grid (15)
- High-Performance Computing (3)
- Hydropower (2)
- Machine Learning (3)
- Materials (16)
- Materials Science (13)
- Mercury (1)
- Microscopy (3)
- Molten Salt (3)
- Nanotechnology (3)
- Neutron Science (24)
- Nuclear Energy (11)
- Physics (1)
- Quantum Computing (4)
- Simulation (2)
- Statistics (1)
- Summit (6)
- Sustainable Energy (28)
- Transportation (27)
Media Contacts
![Galactic wind simulation](/sites/default/files/styles/list_page_thumbnail/public/2019-07/Robertson%5B2%5D.png?h=319b3f54&itok=jK6lUXEt)
Using the Titan supercomputer at Oak Ridge National Laboratory, a team of astrophysicists created a set of galactic wind simulations of the highest resolution ever performed. The simulations will allow researchers to gather and interpret more accurate, detailed data that elucidates how galactic winds affect the formation and evolution of galaxies.
![Batteries—Polymers that bind](/sites/default/files/styles/list_page_thumbnail/public/2019-06/Batteries-Polymers_that_bind_0.png?h=dec22bcf&itok=oJ7mroY1)
A team of researchers at Oak Ridge National Laboratory have demonstrated that designed synthetic polymers can serve as a high-performance binding material for next-generation lithium-ion batteries.
![Nuclear—Deep space travel Nuclear—Deep space travel](/sites/default/files/styles/list_page_thumbnail/public/Screen%20Shot%202018-12-19%20at%2010.29.32%20AM.png?itok=hq0dlVIf)
By automating the production of neptunium oxide-aluminum pellets, Oak Ridge National Laboratory scientists have eliminated a key bottleneck when producing plutonium-238 used by NASA to fuel deep space exploration.
![18-G01703 PinchPoint-v2.jpg 18-G01703 PinchPoint-v2.jpg](/sites/default/files/styles/list_page_thumbnail/public/18-G01703%20PinchPoint-v2.jpg?itok=paJUPDI1)
Researchers used neutron scattering at Oak Ridge National Laboratory’s Spallation Neutron Source to investigate bizarre magnetic behavior, believed to be a possible quantum spin liquid rarely found in a three-dimensional material. QSLs are exotic states of matter where magnetism continues to fluctuate at low temperatures instead of “freezing” into aligned north and south poles as with traditional magnets.
Scientists at Oak Ridge National Laboratory have conducted a series of breakthrough experimental and computational studies that cast doubt on a 40-year-old theory describing how polymers in plastic materials behave during processing.
![Manufacturing_tailoring_performance Manufacturing_tailoring_performance](/sites/default/files/styles/list_page_thumbnail/public/news/images/Manufacturing_tailoring_performance.jpg?itok=ijYcyHyE)
A new manufacturing method created by Oak Ridge National Laboratory and Rice University combines 3D printing with traditional casting to produce damage-tolerant components composed of multiple materials. Composite components made by pouring an aluminum alloy over a printed steel lattice showed an order of magnitude greater damage tolerance than aluminum alone.