Filter News
Area of Research
- (-) Fusion Energy (1)
- (-) Materials (72)
- Advanced Manufacturing (7)
- Biology and Environment (18)
- Clean Energy (48)
- Computational Engineering (1)
- Computer Science (2)
- Energy Frontier Research Centers (1)
- Fuel Cycle Science and Technology (1)
- Fusion and Fission (14)
- Isotope Development and Production (1)
- Isotopes (2)
- Materials Characterization (1)
- Materials for Computing (6)
- Materials Under Extremes (1)
- National Security (14)
- Neutron Science (25)
- Nuclear Science and Technology (8)
- Sensors and Controls (1)
- Supercomputing (34)
News Topics
- (-) 3-D Printing/Advanced Manufacturing (13)
- (-) Artificial Intelligence (4)
- (-) Grid (2)
- (-) High-Performance Computing (2)
- (-) Materials Science (35)
- (-) Nanotechnology (21)
- (-) Nuclear Energy (3)
- (-) Physics (14)
- (-) Security (1)
- Advanced Reactors (2)
- Bioenergy (8)
- Biology (4)
- Biomedical (3)
- Buildings (2)
- Chemical Sciences (20)
- Climate Change (5)
- Composites (3)
- Computer Science (8)
- Coronavirus (2)
- Critical Materials (8)
- Cybersecurity (3)
- Decarbonization (4)
- Energy Storage (19)
- Environment (7)
- Exascale Computing (1)
- Frontier (2)
- Fusion (4)
- Isotopes (5)
- ITER (1)
- Machine Learning (2)
- Materials (38)
- Microscopy (12)
- Molten Salt (2)
- National Security (3)
- Net Zero (1)
- Neutron Science (18)
- Partnerships (8)
- Polymers (6)
- Quantum Computing (1)
- Quantum Science (10)
- Renewable Energy (1)
- Summit (1)
- Sustainable Energy (7)
- Transformational Challenge Reactor (1)
- Transportation (4)
Media Contacts
![From left, Andrew Lupini and Juan Carlos Idrobo use ORNL’s new monochromated, aberration-corrected scanning transmission electron microscope, a Nion HERMES to take the temperatures of materials at the nanoscale. Image credit: Oak Ridge National Laboratory From left, Andrew Lupini and Juan Carlos Idrobo use ORNL’s new monochromated, aberration-corrected scanning transmission electron microscope, a Nion HERMES to take the temperatures of materials at the nanoscale. Image credit: Oak Ridge National Laboratory](/sites/default/files/styles/list_page_thumbnail/public/news/images/2018-P00413.jpg?itok=UKejk7r2)
A scientific team led by the Department of Energy’s Oak Ridge National Laboratory has found a new way to take the local temperature of a material from an area about a billionth of a meter wide, or approximately 100,000 times thinner than a human hair. This discove...
![This isotropic, neodymium-iron-boron bonded permanent magnet was 3D-printed at DOE’s Manufacturing Demonstration Facility at Oak Ridge National Laboratory. This isotropic, neodymium-iron-boron bonded permanent magnet was 3D-printed at DOE’s Manufacturing Demonstration Facility at Oak Ridge National Laboratory.](/sites/default/files/styles/list_page_thumbnail/public/3Dprintedmagnet_image1_0.jpg?itok=uHDlDr_T)
Researchers at the Department of Energy’s Oak Ridge National Laboratory have demonstrated that permanent magnets produced by additive manufacturing can outperform bonded magnets made using traditional techniques while conserving critical materials. Scientists fabric...
![Vanadium atoms (blue) have unusually large thermal vibrations that stabilize the metallic state of a vanadium dioxide crystal. Red depicts oxygen atoms.](/sites/default/files/styles/list_page_thumbnail/public/2020-06/82289_web.jpg?h=05d1a54d&itok=_5hHRzzR)
For more than 50 years, scientists have debated what turns particular oxide insulators, in which electrons barely move, into metals, in which electrons flow freely.