High-entropy materials (HEMs) have emerged as a promising frontier in electrochemical energy storage systems due to their ...

The material could someday be used in flexible semiconductors, tear-resistant textiles, bioengineering scaffolds, and more.

A team of MIT researchers developed a new fabrication method that allowed to make existing materials strong but stretchy.

High-entropy materials (HEMs) have emerged as a novel concept in the field of materials science and have garnered significant ...

A recent study1 by Dr. Fabian Garmroudi and a team of international researchers opens the door for one of the most ...

Engineers have fabricated a metamaterial that is not only strong but also stretchy. Their new method could enable stretchable ceramics, glass, and metals, for tear-proof textiles or stretchy ...

Typically, these structures combine to enable properties that are usually compatible, including strength combined with ...

In metamaterials design, the name of the game has long been "stronger is better." Metamaterials are synthetic materials with ...

Research demonstrates that the addition of certain dopants could improve a solid electrolyte’s interaction with a ...

A research team develops a new alloy that maintains tensile properties from -196 degrees Celsius to 600 degrees Celsius.

Huntington Beach defense firm Karman Holdings acquires refractory metal products specialist Metal Technology Inc. (MTI) for ...

Scientists developed a plasma-based process for the synthesis of photothermal materials for water purification, and ...