The U.S. Department of Energy’s Argonne National Laboratory announced today the appointment of Jeffrey L. Binder to the position of Associate Laboratory Director for Energy and Global Security (EGS).
In a new study by researchers at the U.S. Department of Energy’s Argonne National Laboratory, scientists noticed that magnetic skyrmions – small electrically uncharged circular structures with a spiraling magnetic pattern – do get deflected by an applied current, much like a curveball gets deflected by airflow.
A team has developed a method to grow graphene that contains relatively few impurities, and costs less to make, in a shorter time and at lower temperatures compared to the processes widely used to make graphene today.
A new study from Argonne National Laboratory has shown water can serve a previously undiscovered role to help micelles coalesce to spontaneously form long fibers. The study could help scientists to understand how light-harvesting molecules are incorporated into the micelle fiber as it assembles, which would be a key step to understanding some forms of artificial photosynthesis.
Current thermal energy storage systems for solar power plants rely on materials of low energy density and thermal conductivity, requiring more material at greater cost to meet storage requirements. To combat this challenge, researchers at Argonne National Laboratory designed an inexpensive thermal energy storage system that will be significantly smaller with over 20 times better thermal performance than current systems.
Researchers at Argonne National Laboratory have mapped out two very different types of protein. One helps soil bacteria digest carbon compounds; the other protects cells from the effects of harmful molecules.
To understand how molecules undergo light-driven chemical transformations, scientists need to be able to follow the atoms and electrons within the energized molecule as it gains and loses energy. In a recent study, a team of researchers at Argonne, Northwestern University and the Technical University of Denmark used the ultrafast high-intensity pulsed X-rays produced by the Linac Coherent Light Source to take molecular snapshots of these molecules.
The Exascale Computing Project today announced its first round of funding with the selection of application development proposals, including three Argonne-led projects.
Trying to understand a system of atoms is like herding gnats – the individual atoms are never at rest and are constantly moving and interacting. When it comes to trying to model the properties and behavior of these kinds of systems, scientists use two fundamentally different pictures of reality, one of which is called “statistical” and the other “dynamical.” The two approaches have at times been at odds, but scientists from the U.S. Department of Energy’s Argonne National Laboratory announced a way to reconcile the two pictures.
The U.S. Department of Energy announced last week that 43 small businesses will participate in the second round of the Small Business Vouchers (SBV) pilot.
More than 100 researchers from the U.S. and China met at the Department of Energy’s (DOE’s) Argonne National Laboratory to begin a new phase of collaboration on development of technologies to enhance vehicle efficiency in the two countries. Argonne is leading the U.S-China Clean Energy Research Center (CERC) Clean Vehicles Consortium (CVC).
A group of tribologists – scientists who study the effect of friction in machines – and computational materials scientists at Argonne recently discovered a revolutionary diamond-like film that is generated by the heat and pressure of an automotive engine. The discovery of this ultra-durable, self-lubricating tribofilm – a film that forms between moving surfaces – was first reported yesterday in the journal Nature. It could have profound implications for the efficiency and durability of future engines and other moving metal parts that can be made to develop self-healing, diamond-like carbon tribofilms.
A team of researchers have engineered silicon particles one-fiftieth the width of a human hair, which could lead to “biointerface” systems designed to make nerve cells fire and heart cells beat.
In a new study from Argonne and the University of Illinois at Chicago, researchers have found a way to convert carbon dioxide into a usable energy source.
An international team working at the Advanced Photon Source at Argonne National Laboratory has devised a method for achieving 1 terapascal of static pressure - vastly higher than any previously reached.
Argonne National Laboratory, with the support of the U.S. Department of Energy’s Clean Cities program, has relaunched IdleBox, an electronic education and outreach toolkit aimed at promoting idling reduction across the country. The new IdleBox is now available to anyone seeking an authoritative resource on idling reduction.
Argonne National Laboratory’s new innovation accelerator program for science and energy entrepreneurs, called Chain Reaction Innovations (CRI), opens the application period for its first cohort.
To help stakeholders in government and business make smart decisions about the best types of land and local climates for planting bioenergy crops, researchers at the U.S. Department of Energy’s (DOE’s) Argonne National Laboratory are using computational modeling to predict which counties could see increases in soil organic carbon from cultivation of crops for biofuels. The results are contributing to DOE’s third Billion-Ton report expected later this year.
In a new study, researchers at the U.S. Department of Energy’s (DOE's) Argonne National Laboratory have developed a rational approach to optimize the arrangement of defects to enhance the current-carrying capacity of commercial high-temperature superconducting wires.
Argonne has teamed up with Strem Chemicals, Inc. to provide industry and the battery research community with next-generation materials that could improve energy storage. Strem has licensed 23 separate pieces of intellectual property from Argonne and will manufacture and distribute nine battery solvents and additives.
The U.S. Department of Energy’s (DOE) Argonne National Laboratory will be working with four small businesses on nuclear technology projects under the auspices of DOE’s Gateway for Accelerated Innovation in Nuclear (GAIN).
The projects will be funded through GAIN’s Nuclear Energy Voucher pilot program, which is providing up to $2 million to assist new entrants into the nuclear field as they build the collaborations necessary to accelerate the development and deployment of innovative nuclear technologies.
The U.S. Department of Energy (DOE) on Tuesday, June 21, announced that it is committing more than $1.7 million in funding to help Argonne National Laboratory and research partners move multiple promising energy technologies to the marketplace. News of the Argonne awards was part of a larger announcement by DOE that, through the first round of funding from its Technology Commercialization Fund , it will award nearly $16 million to support 54 projects at 12 national labs involving dozens of research partners.
The experimental facilities of a typical high school physics classroom don’t usually include a synchrotron. But Natalie Ferguson and more than 60 of her schoolmates not only got to see the Advanced Photon Source: they used it to do research.
A team led by researchers from the U.S. Department of Energy’s Argonne National Laboratory used the high-intensity, quick-burst X-rays provided by the Linac Coherent Light Source (LCLS) at SLAC National Accelerator Laboratory to look at how the atoms in a molecule change when the molecule is bombarded with X-rays.
Scientists used X-rays to discover what creates one butterfly effect: how the microscopic structures on the insect’s wings reflect light to appear as brilliant colors to the eye.
Researchers at Argonne found they could use a small electric current to introduce oxygen voids, or vacancies, that dramatically change the conductivity of thin oxide films.
The exascale initiative has an ambitious goal: to develop supercomputers a hundred times more powerful than today’s systems. Argonne Distinguished Fellow Paul Messina, who has been tapped to lead a DOE/NNSA project designed to pave the way, speaks on the potential for exascale and the challenges along the way.
European Commission's Vice-President, Maroš Šefčovič, in charge of the Energy Union, will visit the U.S. Department of Energy’s (DOE’s) Argonne National Laboratory in Lemont, Ill. (USA) to learn more about Argonne’s capabilities in areas such as energy storage and smart cities and expand upon already existing collaboration between DOE laboratories and the European Commission’s Joint Research Centre (JRC).
Researchers from Michigan State University are using Mira to perform large-scale 3-D simulations of the final moments of a supernova’s life cycle. While the 3-D simulation approach is still in its infancy, early results indicate that the models are providing a clearer picture than ever before of the mechanisms that drive supernova explosions.
A team of researchers at Argonne National Laboratory is using nanomaterials to get closer to one of the holy grails of building efficiency technologies: single pane windows with efficiency as good or better than multi-pane low emissions (Low-E) windows. The team recently received a $3.1 million award from DOE’s Advanced Research Projects Agency-Energy (ARPA-E) to develop a technology that could help achieve that goal.
Over three years, a University of Guelph team has brought increasingly complex samples of edible fat to the APS for research. They are using the data from the APS USAXS facility to characterize the nanoscale structure of different kinds of edible fats and applying the data to a model that predicts the effect of processes like heating and mixing on fat structure. If food manufacturers understand the unique structures of different fat compositions, they can better mimic the desirable tastes and textures of unhealthy fats with healthier alternatives, potentially impacting diseases closely tied to diet.
A Graphene-nanodiamond solution for achieving superlubricity that was developed at the U.S. Department of Energy’s Argonne National Laboratory has won a 2016 TechConnect National Innovation Award. TechConnect is a global innovation prospecting company, delivering the most promising technologies to the world’s leading corporate, investment and government clients. Principal investigator and Argonne nanoscientist Ani Sumant accepted the award on May 22 at the TechConnect-National Innovation Summit in Washington, D.C. The technology received the award because it placed in the top 15% of all submitted technologies as ranked by the TechConnect Corporate & Investment Partner Committee.
A team of scientists working at the U.S. Department of Energy’s (DOE) Argonne National Laboratory and led by Northern Illinois University physicist and Argonne materials scientist Zhili Xiao has created a new material, called “rewritable magnetic charge ice,” that permits an unprecedented degree of control over local magnetic fields and could pave the way for new computing technologies.
To meet this challenge, the U.S. Department of Energy’s Office of Energy Efficiency and Renewable Energy (EERE) and Argonne National Laboratory announced today a new innovation accelerator program for science and energy entrepreneurs called Chain Reaction Innovations (CRI).
Increased water use in the rapidly growing oil industry in North Dakota's Bakken oil shale region, or play, is surprisingly due not only to oil well development but also to people, according to a recent study. Increased oil development in that region has attracted thousands of oilfield employees.
A group of researchers from the Argonne National Laboratory and the University of Akron discovered that a particular form of carbon coating not necessarily designed for wind turbines may indeed prove a boon to the wind industry—a serendipitous finding that was recently highlighted in the journal Tribology International.
The University of Chicago, the Marine Biological Laboratory (MBL), and the U.S. Department of Energy's Argonne National Laboratory announced today a new partnership called The Microbiome Center that will combine the three institutions' efforts to understand the identity and function of microbes across environments.
Argonne National Laboratory will join an ongoing crowdsourcing effort established by DOE to develop energy efficient building technologies, drawing on the creativity of the American public and technical expertise of the national laboratories.
This week Argonne National Laboratory is releasing an updated version of its alternative fuels and advanced vehicles analysis tool to reflect the latest advances in alternative fuels and vehicle technologies and updated emissions data. The free, publicly-available tool provides users with a roadmap for assessing which types of vehicles and fuels are right for them.
X-ray physicist Haidan Wen of Argonne National Laboratory received a DOE Early Career Award, a prestigious research grant for $2.5 million over five years.
A switch to propane from diesel by a major Midwest bakery fleet showed promising results, including a significant displacement of petroleum, a drop in greenhouse gases and a fuel cost savings of 7 cents per mile, according to a study recently completed by the U.S. Department of Energy’s (DOE) Argonne National Laboratory.
Please join us for our inaugural Collegiate Cyber Defense Competition where teams of college students compete to design and defend a mock utility system (power plant) from attack.
A team with Argonne's Virtual Engine Research Institute and Fuels Initiative (VERIFI) announce that they have completed development of engineering simulation code and workflows that will allow as many as 10,000 engine simulations to be conducted simultaneously on the Mira supercomputer.
A research team by the U.S. Department of Energy's (DOE) Argonne National Laboratory have discovered that only half the atoms in some iron-based superconductors are magnetic, providing the first conclusive demonstration of the wave-like properties of metallic magnetism.
Scientists at the U.S. Department of Energy's Argonne National Laboratory have demonstrated that the placement and type of a tiny measurement device called a reference electrode enhances the quantity and quality of information that can be extracted from lithium-ion battery cells during cycling.
Last August, Supratik Guha joined the U.S. Department of Energy's Argonne National Laboratory as director for both the Center for Nanoscale Materials and the laboratory’s Nanoscience & Technology Division. Guha took the time to answer a few questions about his background, his plan for the labs, and his perspective on where nanoscience is headed.
Scientists at Argonne National Laboratory have discovered a way to use a microscopic, swirling flow to rapidly clear a circle of tiny bacteria or swimming robots.