Researchers use Argonne's APS to capture how the microstructure of metals evolves in real time during 3D printing. The findings could pave the way for advanced manufacturing of components for ...

A new approach has emerged in which metals are deliberately designed with heterogeneous grain structures, combining grains of different sizes. This strategy has shown promise as a solution, but ...

Zinc sits at the heart of many bacterial enzymes, so one of our immune system's simplest defenses is to keep zinc out of ...

A team of researchers from the University of Minnesota Twin Cities College of Science and Engineering and the University of ...

Researchers developed an atmospheric water harvester so effective it was able to extract moisture from the air in Death ...

Parfuse Corporation, a recognized leader in specialized aluminum processing, is reinforcing its support for Long Island ...

Hard carbon (HC) is considered the most promising anode material for sodium-ion batteries (SIBs) due to its high ...

Researchers created a near-room-temperature method to make high-entropy alloys with precise control of crystal structure and ...

Underground infrastructure must meet exacting performance demands, starting with the right materials. We'll explore how cutting-edge material science is driving stronger, lighter, and more sustainable ...

RDE is a propulsion system that promises higher power, greater fuel efficiency, and lower emissions than conventional rocket or jet engines. The RDE generates thrust by sustaining a circulating ...

Researchers observe metal 3D printing dislocations in real-time - tracking the printing process with X-ray diffraction.

In two recent studies, researchers at the US Department of Energy (DoE)’s Argonne National Laboratory used X-ray diffraction ...