Non-invasive brain imaging is usually handled with electrodes, sticky gels, and wires: it's an ugly, uncomfortable, and ...

Los Angeles developed ink that can be printed on a person’s head and measure their brainwaves. According to a news release from UT, the e-tattoos serve as, “sensors for electroencephalography ...

Students at the University of Texas are using 3D printers to help create e-tattoos that can help provide doctors with crucial ...

Now, as reported by Live Science, researchers from the University of Texas at Austin have developed a way to use temporary ...

The printer deposits the ink with sufficient speed to penetrate short hairs on the scalp. There are also short cables that link the printed e-tattoo to a small EEG recorder. Their e-tattoos ...

A standard EEG test requires electrodes that come with pitfalls. A spray-on ink, capable of carrying electrical signals, avoids some of those.

While electroencephalography (EEG) can provide a wealth of information on the electrical activity of an individual's brain, ...

The researchers developed a conductive ink that can be printed directly on the surface of a patient's head and measure their brainwaves. These e-tattoos serve as the sensors for ...

To figure out this challenge, researchers from The University of Texas at Austin and University of California, Los Angeles, borrowed from regular tattoos. The researchers developed a conductive ink ...