Next-generation technology requires next-generation materials that can be tailored to exact mission requirements. Additive ...

LLNL Scientists studied how solidification rate influences microstructure evolution and phase transformation in additively manufactured HEAs.

Researchers have developed a new class of magnets that does not require rare earths and platinum, yet offers high magnetic ...

Scientists in Manchester are spearheading investigations into the potential of inorganic high-entropy materials (HEMs). Due to the paradoxical stabilization of chaos in their structure, HEMs deviate ...

Researchers at LLNL have developed a method to control the atomic-scale structure of metals during additive manufacturing.

Atomic map of a high-entropy alloy nanoparticle shows different categories of elements in red, blue and green, and twinning boundaries in yellow. Alloys, which are materials such as steel that are ...

High-entropy alloys, characterized by high-entropy, lattice distortion, sluggish diffusion, and the "cocktail" effect due to their multiple elements, are promising for various applications, including ...

In their quest for more-efficient catalysts and better battery components, scientists are exploring a new category of materials known as high-entropy oxides. These oxides, made from five or more ...

Georgetown University researchers have discovered a new class of strong magnets that do not rely on rare-earth or precious metals—a breakthrough that could significantly advance clean energy ...