Filter News
Area of Research
- (-) Clean Energy (83)
- (-) Materials (70)
- Advanced Manufacturing (10)
- Biological Systems (1)
- Biology and Environment (32)
- Building Technologies (2)
- Computational Biology (1)
- Computational Engineering (2)
- Computer Science (3)
- Energy Sciences (1)
- Fusion and Fission (5)
- Fusion Energy (3)
- Isotope Development and Production (1)
- Isotopes (1)
- Materials Characterization (1)
- Materials for Computing (14)
- Materials Under Extremes (1)
- Mathematics (1)
- National Security (6)
- Neutron Science (22)
- Nuclear Science and Technology (5)
- Supercomputing (39)
- Transportation Systems (1)
News Type
News Topics
- (-) Bioenergy (19)
- (-) Clean Water (5)
- (-) Composites (15)
- (-) Exascale Computing (2)
- (-) Materials Science (62)
- (-) Molten Salt (3)
- (-) Summit (3)
- (-) Sustainable Energy (52)
- 3-D Printing/Advanced Manufacturing (59)
- Advanced Reactors (4)
- Artificial Intelligence (7)
- Big Data (2)
- Biology (8)
- Biomedical (6)
- Biotechnology (3)
- Buildings (21)
- Chemical Sciences (24)
- Climate Change (14)
- Computer Science (23)
- Coronavirus (7)
- Critical Materials (18)
- Cybersecurity (4)
- Decarbonization (15)
- Energy Storage (58)
- Environment (33)
- Fossil Energy (1)
- Frontier (2)
- Fusion (4)
- Grid (25)
- High-Performance Computing (5)
- Hydropower (2)
- Isotopes (7)
- ITER (1)
- Machine Learning (7)
- Materials (66)
- Mathematics (1)
- Mercury (2)
- Microscopy (18)
- Nanotechnology (30)
- National Security (5)
- Net Zero (2)
- Neutron Science (27)
- Nuclear Energy (9)
- Partnerships (11)
- Physics (16)
- Polymers (16)
- Quantum Computing (2)
- Quantum Science (11)
- Renewable Energy (1)
- Security (3)
- Simulation (2)
- Space Exploration (3)
- Statistics (1)
- Transformational Challenge Reactor (3)
- Transportation (45)
Media Contacts
Electric vehicles can drive longer distances if their lithium-ion batteries deliver more energy in a lighter package. A prime weight-loss candidate is the current collector, a component that often adds 10% to the weight of a battery cell without contributing energy.
Four scientists affiliated with ORNL were named Battelle Distinguished Inventors during the lab’s annual Innovation Awards on Dec. 1 in recognition of being granted 14 or more United States patents.
Guided by machine learning, chemists at ORNL designed a record-setting carbonaceous supercapacitor material that stores four times more energy than the best commercial material.
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.
Quantum computers process information using quantum bits, or qubits, based on fragile, short-lived quantum mechanical states. To make qubits robust and tailor them for applications, researchers from the Department of Energy’s Oak Ridge National Laboratory sought to create a new material system.
Like most scientists, Chengping Chai is not content with the surface of things: He wants to probe beyond to learn what’s really going on. But in his case, he is literally building a map of the world beneath, using seismic and acoustic data that reveal when and where the earth moves.
A new report published by ORNL assessed how advanced manufacturing and materials, such as 3D printing and novel component coatings, could offer solutions to modernize the existing fleet and design new approaches to hydropower.
Scientists at ORNL developed a competitive, eco-friendly alternative made without harmful blowing agents.
ORNL researchers Ben Ollis and Max Ferrari will be in Adjuntas to join the March 18 festivities but also to hammer out more technical details of their contribution to the project: making the microgrids even more reliable.
ORNL has entered a strategic research partnership with the United Kingdom Atomic Energy Authority, or UKAEA, to investigate how different types of materials behave under the influence of high-energy neutron sources. The $4 million project is part of UKAEA's roadmap program, which aims to produce electricity from fusion.