Scientists revealed how atoms rearrange themselves before releasing low-energy electrons in a decay process initiated by ...

By stacking graphene with other ultrathin layers, researchers created a memory effect that stores data electrically with very ...

Changing the angle of a GaAs substrate reshapes aluminum nanofilms, allowing large, controlled shifts in superconducting ...

An international research team has demonstrated that Janus nanoparticles can disrupt the defenses of drug-resistant ...

Researchers have developed a new catalyst architecture that dramatically reduces the amount of expensive precious metals ...

Charge density waves are a central feature of many quantum materials and often coexist or compete with other electronic ...

A hydrogel engineered with cell-like particles mimicking skin tissue achieves 99.9% compressibility and ultralow energy loss ...

Magnetic nanoparticles engineered T cells inside living mice and guided them into solid tumors, achieving over 90% tumor ...

A dual cross-linked magnetic polymer solves the fundamental trade-off limiting soft artificial muscles, achieving ...

The study highlights a novel engineered crystalline membrane, whose one-nanometre gateways act as a high-precision sieve, ...

Placing a thin layer of molybdenum disulfide on diamond enables current flow at room temperature, opening a new pathway for diamond-based electronic devices.

Theta-phase tantalum nitride conducts heat nearly three times better than copper, opening new pathways for cooling ...