A security device made from gold nanoparticles uses light alone to create, verify, and reset uncopyable identities, enabling ...

Without the highly brilliant X-ray sources, the otherwise very weak signal would not have been measurable. While the reaction ...

A microfluidic approach combines electric slip and viscoelastic forces to sort nanoscale particles, increasing the purity of synthetic beads and cell vesicles.

A 0.8 nm amorphous carbon coating grown on hard disk media matches the protective performance of films three times thicker, ...

A silicon-based nanothrombolytic combines clot dissolution with local microenvironment regulation, enhancing safety and efficacy in thrombotic disorders.

Pioneering research shows how the renewable energy sector can scale-up the production of solar energy technology while further reducing environmental impacts.

This innovative system improves energy efficiency and offers a promising solution for sustainable energy and environmental remediation.

Researchers developed a method to coat curved surfaces with ultra-thin transparent metal films, achieving 88% light transmittance and low resistance like flat electrodes.

Graphene and diamond, both carbon, can be combined into hybrids that merge flexibility, conductivity, and hardness for extreme electronics and mechanical applications.

Detailed experiments provide new insights into the forces and mechanisms that influence polymer micelle formation and gelling ...

A flexible electronic skin stacks carbon nanotube layers to sense touch position and pressure simultaneously, performing ...

A DNA-based nanodevice applies controlled force to individual proteins, enabling researchers to observe molecular changes and ...