Construction continues one year after the groundbreaking ceremony for a new building that will house cutting-edge experiments in many fields of science.
Using the powerful X-ray beams of the Advanced Photon Source with new computer-driven algorithms, scientists will be able to study batteries and electronics at nanometer scales.
In graduate school, Argonne postdoctoral researcher Katie Sautter learned to master a machine that builds bits of matter one atomic layer at a time. Now she wields her considerable skills inventing materials for quantum communication devices at Q-NEXT.
A study from Oak Ridge National Laboratory looked at which energy-saving measures would be the most effective across a swath of buildings in Chattanooga, Tennessee.
High school students mentored by Argonne staff win gold at DuPage County Afro-Academic, Cultural, Technological and Scientific Olympics (ACT-SO) and compete in nationals competition.
For more than 25 years, the Advanced Photon Source’s intense X-rays have enabled important breakthroughs. With a massive upgrade in the works, scientists will be able to see things at scale never seen before.
Costs for energy are borne unequally across the U.S. population. Argonne research is providing key data that can help inform decisions about which technologies can reduce disparities.
Scientists have created a new ink for 3D printing of durable materials, including prosthetics and space travel devices, from a rare mineral found with the help of Argonne’s Advanced Photon Source.
Argonne-driven technology is part of a broad initiative to answer fundamental questions about the birth of matter in the universe and the building blocks that hold it all together.