Filter News
Area of Research
- (-) Materials (92)
- (-) Supercomputing (83)
- Advanced Manufacturing (9)
- Biology and Environment (85)
- Biology and Soft Matter (1)
- Building Technologies (2)
- Clean Energy (141)
- Climate and Environmental Systems (2)
- Computational Biology (1)
- Computational Engineering (2)
- Computer Science (10)
- Electricity and Smart Grid (3)
- Energy Sciences (1)
- Functional Materials for Energy (2)
- Fusion and Fission (7)
- Fusion Energy (3)
- Isotopes (4)
- Materials Characterization (2)
- Materials for Computing (14)
- Materials Under Extremes (1)
- Mathematics (1)
- National Security (28)
- Neutron Science (22)
- Nuclear Science and Technology (1)
- Quantum information Science (2)
- Sensors and Controls (1)
News Topics
- (-) Artificial Intelligence (38)
- (-) Big Data (19)
- (-) Climate Change (21)
- (-) Grid (9)
- (-) Materials (79)
- (-) Mathematics (1)
- (-) Sustainable Energy (19)
- 3-D Printing/Advanced Manufacturing (26)
- Advanced Reactors (5)
- Bioenergy (18)
- Biology (14)
- Biomedical (22)
- Biotechnology (2)
- Buildings (8)
- Chemical Sciences (32)
- Clean Water (3)
- Composites (9)
- Computer Science (98)
- Coronavirus (17)
- Critical Materials (15)
- Cybersecurity (8)
- Decarbonization (11)
- Energy Storage (37)
- Environment (34)
- Exascale Computing (22)
- Frontier (28)
- Fusion (8)
- High-Performance Computing (40)
- Irradiation (1)
- Isotopes (13)
- ITER (1)
- Machine Learning (14)
- Materials Science (83)
- Microscopy (29)
- Molten Salt (3)
- Nanotechnology (42)
- National Security (8)
- Net Zero (2)
- Neutron Science (42)
- Nuclear Energy (20)
- Partnerships (11)
- Physics (34)
- Polymers (18)
- Quantum Computing (20)
- Quantum Science (32)
- Renewable Energy (1)
- Security (6)
- Simulation (14)
- Software (1)
- Space Exploration (5)
- Summit (42)
- Transformational Challenge Reactor (3)
- Transportation (19)
Media Contacts
Oak Ridge National Laboratory researchers have developed a thin film, highly conductive solid-state electrolyte made of a polymer and ceramic-based composite for lithium metal batteries.
For the second year in a row, a team from the Department of Energy’s Oak Ridge and Los Alamos national laboratories led a demonstration hosted by EPB, a community-based utility and telecommunications company serving Chattanooga, Tennessee.
In the race to identify solutions to the COVID-19 pandemic, researchers at the Department of Energy’s Oak Ridge National Laboratory are joining the fight by applying expertise in computational science, advanced manufacturing, data science and neutron science.
We have a data problem. Humanity is now generating more data than it can handle; more sensors, smartphones, and devices of all types are coming online every day and contributing to the ever-growing global dataset.
As the second-leading cause of death in the United States, cancer is a public health crisis that afflicts nearly one in two people during their lifetime.
A novel approach developed by scientists at ORNL can scan massive datasets of large-scale satellite images to more accurately map infrastructure – such as buildings and roads – in hours versus days.
The prospect of simulating a fusion plasma is a step closer to reality thanks to a new computational tool developed by scientists in fusion physics, computer science and mathematics at ORNL.
Energy storage startup SPARKZ Inc. has exclusively licensed five battery technologies from the Department of Energy’s Oak Ridge National Laboratory designed to eliminate cobalt metal in lithium-ion batteries. The advancement is aimed at accelerating the production of electric vehicles and energy storage solutions for the power grid.
Researchers across the scientific spectrum crave data, as it is essential to understanding the natural world and, by extension, accelerating scientific progress.
For nearly three decades, scientists and engineers across the globe have worked on the Square Kilometre Array (SKA), a project focused on designing and building the world’s largest radio telescope. Although the SKA will collect enormous amounts of precise astronomical data in record time, scientific breakthroughs will only be possible with systems able to efficiently process that data.