Unlike their mid-century ancestors, today's plastics are being reimagined through ultra-thin layering at the molecular level.

Penn State researchers created seven new high-entropy oxides by removing oxygen during synthesis, enabling metals that normally destabilize to form rock-salt ceramics. Machine learning helped identify ...

3M is committed to advancing the semiconductor industry through materials innovation. By enabling efficiency, improving reliability, and supporting environmental goals, we help manufacturers meet the ...

Underwater octopuses change their body color and texture in the blink of an eye to blend perfectly into their surroundings ...

Scientists in Melbourne have discovered how tiny electrical pulses can steer stem cells as they grow, opening the door to new ...

The research team led by Dr. Dae-Yoon Kim at the Functional Composite Materials Research Center of the Korea Institute of ...

To increase driving range, electric vehicle (EV) batteries rely on high-nickel cathodes. However, this high nickel content ...

Every bit of technology fails eventually, whether time, wear-and-tear, adverse conditions, or perhaps a mixture of all three ...

Since the late 1800s, rechargeable batteries have revolutionized how we store and use energy in many ways. Although batteries ...

With partnerships like this, we’re strengthening Florida’s talent pipeline and delivering lasting economic benefits for our ...

Penn State scientists discovered seven new ceramics by simply removing oxygen—opening a path to materials once beyond reach.