Short current pulses can switch magnetization in thin films via spin orbit torque, enabling controllable skyrmion motion for future data technologies.

Quantum metamaterials enable ultrasensitive far-infrared sensing by exploiting the in-plane photoelectric effect.

A resin strategy lets 3D printed polymers organize internally during curing, creating ordered nanostructures that can later be locked into stronger materials.

Imaging ellipsometry enables non-destructive, multi-scale quality control of microstructured MXene thin films during device ...

Scientists have developed a new passivation strategy that significantly improves both the efficiency and operational ...

Study finds gold atoms on common surfaces rearrange into protective patterns, suppressing oxygen reactions by a billion to a ...

Electron-beam cuts make twisted graphene rebuild itself into carbon nanotubes, arrays, and Y-junctions through controlled ...

Sub-5-nm gold antennas match the scale of 2D semiconductors, concentrating light where atomically thin materials can convert ...

Room-temperature e-beam method uses crystal buckling to pattern hard materials like silica for next-gen photonic and ...

A programmable metasurface stamps temporal codes onto ambient radio waves, enabling passive radar to detect and track drones ...

Researchers discovered that dual-atom catalysts follow a previously unknown 'dual-Sabatier optima' pattern, overturning ...

AI-powered real-time sensing detects bacteria via volatile chemical fingerprints, enabling faster infection diagnosis and targeted treatment. (Nanowerk News) Healthcare-associated infections remain a ...