Researchers develop method to precisely control calcium phosphate structure at the 300-nanometer scale using bone-forming ...

Researchers use high-resolution imaging to reveal the dynamic structure of biomolecular condensates, shedding light on their ...

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

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

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