Scientists demonstrate for the second time that theoretical models of quantum physics can be realized with nanographenes, ...

This novel approach significantly reduces processing time from a week to just minutes, enabling high-throughput production of ...

Scientists demonstrate topological beam shaping using Jackiw-Rebbi states on metasurfaces, enabling precise, customizable ...

Researchers developed a nano-spring coating with carbon nanotubes on battery electrodes to absorb strain, prevent cracks, and ...

Flowing quantum dot solutions enhance heat dissipation, enabling stable high-speed pulsed operation and tunable color output for next-generation optical devices.

As brain organoids replicate aspects of the brain's physiology, organoids hold the potential to reveal new insights about ...

Scientists have developed a method to track how lasers instantly change a materials transparency and conductivity on attosecond timescales, revealing ultrafast dynamics.

Researchers developed a new type of ceramic fiber aerogel, featuring highly anisotropic thermal conductivity and extreme thermal stability through directional bio-inspired design.

Researchers developed a nanoscale quantum resonant tunnelling diode that mimics a sensory neuron, detecting light, processing ...

The manufacturing technique involves melting and squeezing pure metals between two rigid van der Waals anvils under high ...

Researchers have developed a binder-free 3D printing method for MXene, enabling high-resolution microstructures with enhanced ...

“Traditional imaging methods involve external tracers, which may detach during circulation,” explains Koshikawa. “To overcome ...