Filter News
Area of Research
- (-) Materials (41)
- (-) Neutron Science (18)
- Advanced Manufacturing (2)
- Biology and Environment (31)
- Building Technologies (1)
- Clean Energy (44)
- Climate and Environmental Systems (1)
- Computational Biology (1)
- Computational Engineering (3)
- Computer Science (16)
- Electricity and Smart Grid (1)
- Functional Materials for Energy (1)
- Fusion and Fission (4)
- Fusion Energy (2)
- Isotopes (1)
- Materials for Computing (12)
- Mathematics (1)
- National Security (30)
- Nuclear Science and Technology (6)
- Quantum information Science (6)
- Supercomputing (127)
News Topics
- (-) Artificial Intelligence (12)
- (-) Computer Science (24)
- (-) Frontier (4)
- (-) Machine Learning (7)
- (-) Molten Salt (3)
- (-) Polymers (18)
- 3-D Printing/Advanced Manufacturing (27)
- Advanced Reactors (5)
- Big Data (3)
- Bioenergy (15)
- Biology (9)
- Biomedical (17)
- Biotechnology (1)
- Buildings (5)
- Chemical Sciences (32)
- Clean Water (4)
- Climate Change (5)
- Composites (9)
- Coronavirus (11)
- Critical Materials (12)
- Cybersecurity (5)
- Decarbonization (9)
- Energy Storage (38)
- Environment (21)
- Exascale Computing (2)
- Fossil Energy (1)
- Fusion (8)
- Grid (5)
- High-Performance Computing (6)
- Irradiation (1)
- Isotopes (13)
- ITER (1)
- Materials (80)
- Materials Science (87)
- Mathematics (1)
- Microscopy (27)
- Nanotechnology (43)
- National Security (4)
- Net Zero (1)
- Neutron Science (106)
- Nuclear Energy (18)
- Partnerships (10)
- Physics (31)
- Quantum Computing (4)
- Quantum Science (15)
- Renewable Energy (1)
- Security (3)
- Simulation (1)
- Space Exploration (5)
- Summit (6)
- Sustainable Energy (14)
- Transformational Challenge Reactor (3)
- Transportation (19)
Media Contacts
In a finding that helps elucidate how molten salts in advanced nuclear reactors might behave, scientists have shown how electrons interacting with the ions of the molten salt can form three states with different properties. Understanding these states can help predict the impact of radiation on the performance of salt-fueled reactors.
Neutron experiments can take days to complete, requiring researchers to work long shifts to monitor progress and make necessary adjustments. But thanks to advances in artificial intelligence and machine learning, experiments can now be done remotely and in half the time.
Rigoberto Advincula, a renowned scientist at ORNL and professor of Chemical and Biomolecular Engineering at the University of Tennessee, has won the Netzsch North American Thermal Analysis Society Fellows Award for 2023.
Tomonori Saito, a distinguished innovator in the field of polymer science and senior R&D staff member at ORNL, was honored on May 11 in Columbus, Ohio, at Battelle’s Celebration of Solvers.
Chemist Jeff Foster is looking for ways to control sequencing in polymers that could result in designer molecules to benefit a variety of industries, including medicine and energy.
Scientists at ORNL developed a competitive, eco-friendly alternative made without harmful blowing agents.
Critical Materials Institute researchers at Oak Ridge National Laboratory and Arizona State University studied the mineral monazite, an important source of rare-earth elements, to enhance methods of recovering critical materials for energy, defense and manufacturing applications.
Paul Langan will join ORNL in the spring as associate laboratory director for the Biological and Environmental Systems Science Directorate.
The U.S. Departments of Energy and Defense teamed up to create a series of weld filler materials that could dramatically improve high-strength steel repair in vehicles, bridges and pipelines.
While studying how bio-inspired materials might inform the design of next-generation computers, scientists at ORNL achieved a first-of-its-kind result that could have big implications for both edge computing and human health.