Researchers at Oregon Health & Science University have identified a previously unknown system inside cells that works like ...

Cells aren’t as passive as scientists once thought—they actively create internal currents to move proteins quickly and efficiently. These “cellular winds” push materials to the front of the cell, ...

Penn State researchers have developed a technique they call “cellular snowballing,” in which lab-grown cells mixed with ...

Researchers have built a dissolvable skin patch loaded with a ginger-derived compound and a light-absorbing dye that, when activated by near-infrared light, generates enough heat to kill melanoma ...

A new, highly efficient electrochemical process converts propane into propene at room temperature. The team that developed the process believes that it is an economically viable, environmentally ...

The study, published in Science Bulletin, demonstrates that these micropillar-patterned electrodes, featuring only 1.5 micrometers tall cylindrical ...

For most of the solar industry’s modern history, progress has been framed as a story of physics. Higher efficiencies came ...

A 1961 booklet on nuclear energy, 'The Atom in Our Hands,' traveled from Belgium to Oak Ridge, connecting generations.

For decades, copper was the material the solar industry knew it needed but could not manufacture at scale. That barrier has ...

In Dante's "Divine Comedy," Hell is described as an "inferno" with nine concentric circles, the entrance of which has a sign ...

Speaking at the Tri-Service seminar ‘Ran Samwad’ in Bengaluru, General Upendra Dwivedi outlined a bold vision that blends ...

Geometric confinement paradoxically enhances bacterial chemotaxis through chiral surface swimming and sidewall alignment, with optimal performance when lane width matches the circular swimming radius.