Filter News
Area of Research
News Type
News Topics
- (-) Bioenergy (3)
- (-) Biomedical (1)
- (-) Critical Materials (2)
- (-) Decarbonization (1)
- (-) Machine Learning (1)
- (-) Neutron Science (9)
- (-) Physics (5)
- 3-D Printing/Advanced Manufacturing (3)
- Advanced Reactors (3)
- Artificial Intelligence (1)
- Chemical Sciences (2)
- Climate Change (1)
- Computer Science (4)
- Energy Storage (6)
- Environment (2)
- Fusion (1)
- Isotopes (3)
- Materials (1)
- Materials Science (21)
- Microscopy (4)
- Molten Salt (2)
- Nanotechnology (10)
- National Security (1)
- Nuclear Energy (7)
- Polymers (4)
- Quantum Science (4)
- Space Exploration (1)
- Summit (1)
- Sustainable Energy (6)
- Transformational Challenge Reactor (1)
- Transportation (2)
Media Contacts
Real-time measurements captured by researchers at ORNL provide missing insight into chemical separations to recover cobalt, a critical raw material used to make batteries and magnets for modern technologies.
Five researchers at the Department of Energy’s Oak Ridge National Laboratory have been named ORNL Corporate Fellows in recognition of significant career accomplishments and continued leadership in their scientific fields.
A team led by the Department of Energy’s Oak Ridge National Laboratory synthesized a tiny structure with high surface area and discovered how its unique architecture drives ions across interfaces to transport energy or information.
Oak Ridge National Laboratory researchers have discovered a better way to separate actinium-227, a rare isotope essential for an FDA-approved cancer treatment.
Oak Ridge National Laboratory researchers working on neutron imaging capabilities for nuclear materials have developed a process for seeing the inside of uranium particles – without cutting them open.
After more than a year of operation at the Department of Energy’s (DOE’s) Oak Ridge National Laboratory (ORNL), the COHERENT experiment, using the world’s smallest neutrino detector, has found a big fingerprint of the elusive, electrically neutral particles that interact only weakly with matter.