Until now, skin cells have been viewed as barriers that can respond to electric stimuli. Turns out, they also generate ...

A team of researchers from the International Iberian Nanotechnology Laboratory (INL) has reshaped the future of ...

For decades, scientists have relied on electrodes and dyes to track the electrical activity of living cells. Now, engineers at the University of California San Diego have discovered that quantum ...

It carries the capability to manage or modify current or voltage flow, amplify and produce electrical signals, and act as a switch or gate. The impressive fact is that trillions of these transistors ...

During the study, the engineers used the quantum property to track the electrical activity of the heart muscles and cells.

Atrial fibrillation is probably a diagnosis you have heard of, if not because a friend or family member has it, because it has been mentioned in a public advertisement or ...

The researchers found that the conversion from excitons to trions in atom-thick semiconductors can be harnessed to detect the electrical signals of heart muscle cells—without the need for tethered ...

Next-generation imaging technology is rapidly expanding beyond smartphones into intelligent devices, robotics, extended ...

UC San Diego engineers demonstrate high-speed, all-optical method for recording voltage changes in biological cells ...