In less than three years at Sandia National Laboratories, competitive intelligence specialist Kelli Howie's targeted work to develop and advance women inventors was recognized by the Federal Laboratory Consortium with a national Rookie of the Year Award.
Science, education and economic development leaders across New Mexico have formed a coalition to bring future quantum computing jobs to the state. Sandia National Laboratories, The University of New Mexico and Los Alamos National Laboratory announced the new coalition today.
Christina Chavez, Sandia National Laboratories' first full-time archaeologist, works with teams throughout Sandia to ensure the U.S. Department of Energy remains in compliance with Section 106 of the National Historic Preservation Act.
Scientists from Sandia National Laboratories have announced a tiny, electronic device that can shunt excess electricity within a few billionths of a second while operating at a record-breaking 6,400 volts — a significant step towards protecting the nation’s electric grid from an electromagnetic pulse.
With the insertion of a little math, Sandia National Laboratories researchers have shown that neuromorphic computers, which synthetically replicate the brain’s logic, can solve more complex problems than those posed by artificial intelligence and may even earn a place in high-performance computing.
A Sandia National Laboratories-led study, published on March 7 in the scientific journal Joule, tackled a long-held assumption that adding some liquid electrolyte to improve performance would make solid-state batteries unsafe. Instead, the research team found that in many cases solid-state batteries with a little liquid electrolyte were safer than their lithium-ion counterparts. They also found, if the battery were to short-circuit, releasing all its stored energy, the theoretically super-safe, all-solid-state battery could put out a dangerous amount of heat.
Babu Chalamala, an engineer and manager of Sandia National Laboratories’ energy storage group, was recently elected fellow of two prestigious national societies. On Jan. 26, he became a fellow of the American Association for the Advancement of Science. On Dec. 7, he became a fellow of the National Academy of Inventors.
Ten Sandia National Laboratories engineers received Black Engineer of the Year Awards this year, including Most Promising Scientist in Government, Research Leadership, Science Spectrum Trailblazers and Modern-Day Technology Leaders.
Brad Boyce, a materials scientist at Sandia National Laboratories, was elected president of The Minerals, Metals and Materials Society. Boyce will become vice president of the society on March 3 at its annual meeting.
Sandia National Laboratories recently updated the Maccs code to better aid the Nuclear Regulatory Commission and the global nuclear industry in assessing the consequences of nuclear accidents. The Maccs code can also evaluate the potential health and environmental risks posed by advanced nuclear reactors and small modular nuclear reactors.
A machine-learning algorithm developed at Sandia National Laboratories could provide auto manufacturing, aerospace and other industries a faster and more cost-efficient way to test bulk materials.
Sandia National Laboratories marked a major milestone when the Nuclear Security Enterprise successfully produced the first completely refurbished bomb for the B61-12 life extension program in November 2021. More than 5,000 employees have worked on the B61-12 life extension program at Sandia during the last decade. As part of the program, Sandia worked to refurbish, replace or reuse about 50 different components and sub-systems that make up the B61-12.
U.S. Secretary of Labor Martin J. Walsh recently recognized Sandia National Laboratories as one of 849 recipients of the 2021 HIRE Vets Medallion Award during a virtual award ceremony presented by the Department of Labor. The Honoring Investments in Recruiting and Employing American Military Veterans Act Medallion Program recognizes employers who successfully recruit, hire and retain veterans.
A precision diagnostic developed at the Department of Energy’s Sandia National Laboratories is emerging as a gold standard for detecting and describing problems inside quantum computing hardware.
This fall, four Sandia National Laboratories employees were recognized by the Society of Women Engineers. Laura Biedermann, Annie Dallman, Erica Douglas and Chris LaFleur were recognized for their professional excellence, leadership and support of women in science, technology, engineering and mathematics, or STEM.
Supporting a growing workforce and a wide range of businesses, Sandia National Laboratories contributed an all-time high of $3.9 billion into the economy during fiscal year 2021.
A new kind of benchmark test, designed at Sandia National Laboratories, predicts how likely a quantum processor will run a specific program without errors, revealing the technology's true potential and limitations.
Researchers at Sandia National Laboratories have developed a method to detect trace amounts of synthetic opioids. They plan to combine their approach with miniaturized sensors to create a hand-portable instrument easily used by law enforcement agents for efficient detection in the field.
Researchers at Sandia National Laboratories have created a platform for discovering, designing and engineering novel antibody countermeasures for emerging viruses. This new process of screening for nanobodies that “neutralize” or disable the virus represents a faster, more effective approach to developing nanobody therapies that prevent or treat viral infection.
Self-flying drones and autonomous taxis that can safely operate in fog may sound futuristic, but new research at Sandia National Laboratories’ fog facility is bringing the future closer. Fog can make travel by water, air and land hazardous when it becomes hard for both people and sensors to detect objects. Researchers at Sandia’s fog facility are addressing that challenge through new optical research in computational imaging and by partnering with NASA researchers working on Advanced Air Mobility, Teledyne FLIR and others to test sensors in customized fog that can be measured and repeatedly produced on demand.
Ever since the first human placed a bare hand on an uninsulated electric line, people have refrained from personally testing energetic materials. Even meters made of metal can melt at high voltages.
A team at Sandia National Laboratories has completed a series of tests on specially designed stainless-steel containers used by the Department of Energy for storage and transportation of hazardous materials. The engineers, technologists and project managers were surprised to find that the containers did not split open when heated to 2000 degrees Fahrenheit.
After eight great years of observations and research, a Sandia National Laboratories-operated atmospheric measurement facility moved from Oliktok Point, on the North Slope of Alaska, this summer. The mobile facility will be relocating to the southeastern United States; the exact location is still being decided.
Scientists from Sandia, Los Alamos and Lawrence Berkeley national laboratories have just begun the third phase of a years-long experiment to understand how salt and very salty water behave near hot nuclear waste containers in a salt-bed repository.Salt’s unique physical properties can be used to provide safe disposal of radioactive waste, said Kristopher Kuhlman, a Sandia geoscientist and technical lead for the project.
Sandia National Laboratories has created the first device that is small, energy-efficient and reliable enough to potentially move quantum sensors — sensors that use quantum mechanics to outperform conventional technologies — from the lab into commercial use.
In one of nature’s unexpected bounties, a harmless food-grade solvent has been used to extract highly sought rare-earth metals from coal ash, reducing the amount of ash without damaging the environment and at the same time increasing an important national resource.
Sandia National Laboratories launched three sounding rockets in succession on Wednesday to hasten development of 23 technologies for the nation’s hypersonic modernization priority, including the Navy’s Conventional Prompt Strike and the Army’s Long-Range Hypersonic Weapon programs.
Sandia National Laboratories' solar researchers and librarians have spent the past few years collecting, digitizing and cataloging a host of reports, memos, blueprints, photos and more on concentrating solar power, a kind of renewable energy produced by using large mirrors to reflect and concentrate sunlight onto a receiver on a tower to generate electricity. These historical research documents are now in a publicly accessible digital archive for other concentrating solar power researchers, historians, corporations and citizens to view.
Somewhere among the glitter of the night sky is a small satellite powered by innovative, next-generation solar cell technology developed at Sandia National Laboratories. mPower Technology’s DragonSCALES, consist of small, highly interconnected photovoltaic cells formerly known as solar glitter at Sandia. They are orbiting Earth for the first time on a satellite.
The largest missile ever to launch from Sandia National Laboratories' Kauai Test Facility in Hawaii has shown the storied test range is still growing to meet the testing needs of advanced weapons systems.
Scientists at Sandia National Laboratories and their collaborators have developed a new membrane, whose structure was inspired by a protein from algae, for electrodialysis that could be used to provide fresh water for farming and energy production.
Sandia National Laboratories researchers have created a method of processing 3D images for computer simulations that could have beneficial implications for several industries, including health care, manufacturing and electric vehicles.
The Department of Homeland Security turned to Sandia and Pacific Northwest national laboratories to create the blueprint for a new generation of radiation portal monitors that eventually will replace more than 1,400 monitors deployed across the United States.
Scientists at Sandia National Laboratories are creating a concept for a new kind of computer for solving complex probability problems that involve random chance.
ALBUQUERQUE, N.M. — Sandia National Laboratories researchers combined large sets of real-world solar data and advanced machine learning to study the impacts of severe weather on U.S. solar farms, and sort out what factors affect energy generation. Their results were published earlier this month in the scientific journal Applied Energy.
Biologists at Sandia National Laboratories developed comprehensive software that will help scientists in a variety of industries create engineered chemicals more quickly and easily. Sandia is now looking to license the software for commercial use, researchers said.
A number of new nuclear reactor designs, such as small modular reactors and non-light water reactors, have been developed over the past 10 to 15 years. In order to help the Nuclear Regulatory Commission evaluate the safety of the next generation of reactors, fuel cycle facilities and fuel technologies, researchers at Sandia National Laboratories have been expanding their severe accident modeling computer code, called Melcor, to work with different reactor geometries, fuel types and coolant systems.
Sandia National Laboratories and its nuclear security enterprise partners recently completed the first production unit of a weapon assembly responsible for key operations of the W88 nuclear warhead.
Sandia National Laboratories is developing a new kind of imaging system that will enable people to safely examine sealed metal boxes when opening them could be dangerous.
Researchers at Sandia National Laboratories have designed a new class of molten sodium batteries for grid-scale energy storage. The new battery design was shared in a paper published today in the scientific journal Cell Reports Physical Science.
A team of Sandia National Laboratories engineers developed a new testing capability in support of its nuclear weapons mission. The team completed their first combined-environments test on a full-scale weapons system at the Sandia Superfuge/Centrifuge complex in Albuquerque, New Mexico.
The first nanoscale images ever taken inside intact, lithium-metal coin batteries (also called button cells or watch batteries) challenge prevailing theories and could help make future high-performance batteries, such as for electric vehicles, safer, more powerful and longer lasting.
The Department of Energy recently awarded $14 million to form a Sandia National Laboratories-led center to improve the understanding of perovskite-based photovoltaic technologies and determine the best tests to evaluate the new solar panels’ lifetimes.
Like two superheroes finally joining forces, Sandia National Laboratories’ Z machine — generator of the world’s most powerful electrical pulses — and Lawrence Livermore National Laboratory’s National Ignition Facility — the planet’s most energetic laser source — in a series of 10 experiments have detailed the responses of gold and platinum at pressures so extreme that their atomic structures momentarily distorted like images in a fun-house mirror.