Researchers can now precisely engineer 3D metal parts at the nanoscale from any metal or alloy, yielding surprisingly strong ...

Two nonconductive liquids produce a conductive film where they meet, enabling 3D-printed all-liquid wires that obey Ohm's law and repair themselves after being cut.

A single-step laser technique produces prelithiated silicon-graphene battery anodes with over 98% capacity retention after ...

Dual-gate graphene transistor enables 20x more sensitive biosensing in liquids The new framework can power sensors that measure forever chemicals in water, dopamine ...

Researchers used a nanostructured photonic device to create a supersolid, a phase that is both crystal and fluid, using light and matter particles at room temperature.

A Janus MoSSe monolayer serves as a charge-trapping layer in 2D flash memory, achieving ultrafast programming, long data ...

Adding iron to a copper-based propellant MOF simultaneously solves its water stability problem and boosts laser propulsion ...

Concentrated rivers of current create flickering hotspots in conventional amorphous OLEDs, but crystalline designs may not have this problem.

Researchers defy expectations by creating quantum bits from perovskite materials, once thought too unstable, opening a new field toward functional quantum computers.

A new printing technique places perovskite photodetectors on contact lenses, and AI upscaling turns 100 sparse pixels into an eye-tracking interface for robotic control.

Chronic wounds, including diabetic ulcers and pressure sores, can linger for months or even years.

Instead of using more and more concrete and steel, a research team is focusing on intelligent shapes, digital manufacturing, ...