Dual-comb spectroscopy uses paired ultrafast laser frequency combs to identify molecules by their spectral fingerprints, enabling broad scientific and sensing applications.

On-chip valleytronic circuit processes light-based data streams at room temperature, paving the way for faster, ...

Physicists have experimentally demonstrated an exotic form of magnetism in a metal that could be useful for realizing future ...

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.

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

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

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

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

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

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