Argonne hosts resume writing workshop for veterans
Argonne National LaboratoryArgonne’s Veterans Employee Resource Group hosted a resume writing workshop for a group of veterans, helping to build their professional skills.
Argonne’s Veterans Employee Resource Group hosted a resume writing workshop for a group of veterans, helping to build their professional skills.
Mercouri Kanatzidis, an Argonne and Northwestern University materials scientist, has studied sulfur-containing materials called chalcogenides for more than 30 years. A new chalcogenide mineral has just been named for him.
Agreement is newest example of Argonne’s collaboration with Midwestern universities.
Argonne researchers have tapped into the power of AI to create a new form of autonomous microscopy.
Argonne’s manufacturing center joins with Illinois manufacturers to tour the state and foster innovation and collaboration. Argonne's materials expertise is available to help propel U.S. manufacturing forward.
STEM mapping provides communities a holistic view of community assets and collective strengths, including libraries, computer labs, makerspaces and instructional kitchens.
To help understand how climate is affecting urban communities, researchers at Argonne examined different types of roofing materials and their impact on near-surface temperature and cooling energy demand through regional modeling in the Chicago area.
The DOE recently announced $19 million in funding for Argonne to lead the Center for Steel Electrification by Electrosynthesis. The center's aim is to develop a cost-effective process for steel making that would greatly reduce greenhouse gas emissions.
Scientists demonstrated exceptional performance of a material for high energy X-ray detection. The material displayed excellent endurance under ultra-high X-ray flux and has relatively low cost.
Argonne’s STEM Opportunity Landscape Project provides communities with a holistic view of their STEM assets, enabling them to identify strengths and potential gaps in STEM education and workforce development programing.
Argonne’s Student STEM Ambassadors program makes past and present interns a part of recruitment and outreach activities, letting them better shape the programming based on their own experiences with the lab.
Partnering with AT&T and the New York Power Authority, researchers at Argonne National Laboratory used supercomputing resources to develop a new methodology for estimating increased flood risk from climate change during the mid-21st century.
Argonne is recycling 700 magnets as its Advanced Photon Source undergoes an upgrade, and the old magnets will be used for the Electron-Ion Collider.
Through working on foams, emulsions and gels, students learn the fundamentals of materials science, physics and chemistry in a new summer school at Argonne National Laboratory.
The CodeGirls@Argonne summer camp program helps middle school girls discover the rich possibilities of coding and provides the first steps into their own computer science pathways.
New exascale simulations, some of the most robust ever, could improve reactor design, driving down costs to build.
Scientists exploit a property of quantum physics to make ultraprecise sensors and measurements.
Understanding big datasets requires better analytical models, says the Maria Goeppert Mayer Fellow.
A new DOE-funded program called eBERlight will expand biological and environmental research at the Advanced Photon Source.
An Urban Integrated Field Laboratory led by Argonne is focusing on creating a diverse next generation workforce and involving students in tackling future urban climate challenges.
Top modeling experts detail how to improve energy system models so that they properly account for the technical characteristics of energy storage and how storage interacts with the grid.
High performance computing resources, advanced epidemiological models, and powerful algorithms will make dealing with future crises much easier, thanks to research led by Argonne National Laboratory.
Under mentorship from Argonne and Fermilab experts, six high school students went on to participate in the Afro-Academic, Cultural, Technological and Scientific Olympics in Boston in July.
With the help of high-resolution imaging techniques in real time, scientists have uncovered a mechanism for improving the electrochemical reactions that occur upon charge and discharge of lithium-sulfur batteries.
The Fellow discusses her efforts to improve power systems and how Argonne has supported her career development.
New student program at the U.S. Department of Energy’s Argonne National Laboratory helps high school students from underserved communities get ready for STEM internships.
New student program at the U.S. Department of Energy’s Argonne National Laboratory helps high school students from underserved communities get ready for STEM internships.
Startups embedded in Argonne’s world-class laboratory work with scientists to create market-ready businesses that are the future of clean energy technology.
The Maria Goeppert Mayer Fellow describes his research on superconducting nanowires and how Argonne has supported his career development.
Four startups joined Chain Reaction Innovations, the entrepreneurship program at Argonne, to develop clean energy technologies over two years.
Leslie Rogers describes her research on radioactive decay and how Argonne supported her career development.
Past winners include Fortune 500 companies, Department of Energy national laboratories, academic institutions and smaller companies.
This June, Argonne launched the first Data Science Institute for High School Teachers, helping Chicago teachers learn about and practice data science, which they will apply in their own schools.
Three Argonne projects will receive funding to use AI and machine learning for nuclear physics accelerators and detectors.
Sean Jones will leverage his experience across government, academia and industry as chief research officer for Argonne National Laboratory.
Argonne researchers obtain nine awards from the U.S. Department of Energy's Nuclear Energy University Program and Integrated Research projects, propelling innovation and advancing nuclear technology.
Argonne National Laboratory is reimagining the lab spaces and scientific careers of the future by harnessing the power of robotics, artificial intelligence and machine learning in the quest for new knowledge.
Argonne National Laboratory and the Missouri University of Science and Technology have been awarded funding for a program that aims to generate insights about the universe while expanding diversity in the high energy physics field.
Part of the Argonne in Chicago initiative, the Autonomous Vehicle Camp offers an independent preview into the intense coding, design and engineering challenges found in Argonne’s annual Autonomous Vehicle Competition.
Argonne recently hosted an Energy Efficiency Scaling for Two Decades Workshop. This is the latest in a series of workshops led by the Department of Energy to develop a roadmap to double the energy efficiency of semiconductors every two years.
The Muon g-2 collaboration announced an updated measurement. The new result aligns with the collaboration’s first result, and it’s twice as precise. The experiment measures a property of the muon that might indicate existence of new particles or forces.
Researchers have developed an innovative method for screening sensors to detect heavy metals, bacteria and other agents in water. This method could lead to mass manufacturing of sensors that provide dependable part-per-billion monitoring of water quality.
Argonne researchers received three DOE Early Career Awards, which will help early-career researchers establish themselves as experts in their fields.
The U.S. Department of Energy (DOE) announced $37 million in funding for 52 projects to 44 institutions which include Argonne projects. The funding will help build research capacity, infrastructure and expertise at institutions historically underrepresented.
The U.S. Department of Energy has renewed the Midwest Integrated Center for Computational Materials. Its mission is to apply theoretical methods and software to the understanding, simulation and prediction of material properties at the atomic scale.
Argonne obtains DOE funding for three transformative clean energy projects, revolutionizing geothermal power plants, advancing safety analysis for advanced nuclear reactors and driving the commercialization of used nuclear fuel recycling.
A team of researchers report a mechanical response across a layered magnetic material tied to changing its electron spin. This response could have important applications in nanodevices requiring ultra-precise and fast motion control.
Time is precious to everyone. Digital twin under development at Argonne will allow scientists to conduct virtual experiments that will later maximize use of time in real experiments at large user facilities.
Antibody therapies are only effective if the antibodies do what we want them to do. This research can help scientists determine if an antibody is likely to stick to something other than the intended target, which should lessen the amount of time wasted with overly sticky antibodies.
Scientists have used of reinforcement learning — a system of mathematical rewards and punishments — to improve the efficiency of charging electric vehicles at a charging station.