Scientists have developed a breakthrough technology: temporary electronic tattoos (or e-tattoos) that can be printed directly ...

The BriefUniversity of Texas researchers are working on new e-tattoo technology that can help measure brainwaves.The 3D ...

University of Texas researchers are working on new e-tattoo technology that can help measure brainwaves. The 3D printed e-tattoos make the process easier for people with hair. The technology helps ...

FOX 7's John Krinjak takes a deep dive into new research at the University of Texas. How these e-tattoos could transform the ...

Epidermal electronics attached to the skin via temporary tattoos (e-tattoos) have been around for more than a decade, but they have their limitations, most notably that they don't function well on ...

Click to expand... Biomed here. The "tattoo" itself acts as the electrode. The 'dots' are the electrode, the narrow portion of the "tattoo" leading to the back of the neck are the beginnings of ...

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

An e-tattoo applied to the scalp could record brain waves in the future. Even short hair does not interfere with the 3D-printed electrodes and conductor paths. Neurologists use ...

A comparison of current EEG technology (left) with the new e-tattoo (right). To figure out this challenge, researchers from The University of Texas at Austin and University of California ...

They’ve been developing e-tattoos, sensors that are applied directly to the skin to measure various bodily functions, including heart rate, blood pressure, and the concentrations of different ...

According to a news release from UT, the e-tattoos serve as, “sensors for electroencephalography (EEG), a medical test that measures the brain’s electrical activity.” “An electronic tattoo ...