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

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

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

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

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

Diamond quantum nanoprobes detect immune cell inflammation by sensing electric charge shifts, opening a new path for ...

Scientists discovered that galaxy clusters are about twice as heavy as previously assumed. The additional mass comes mainly ...

Researchers reveal how memory materials switch electricity on and off by melting and freezing tellurium in nano-devices, enabling faster, energy-efficient semiconductor design.

The team found very clear evidence of sulfur in the third planet in the system, HR 8799 c, although they believe it is likely present on all three inner planets. They also found that the planets were ...

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

Researchers have developed a breakthrough technique that quantifies energy dissipation in complex, small systems, offering ...

A new chip sorts individual living cells through open air along adjustable paths, offering a gentler and more flexible alternative to conventional methods.