Researchers in Japan have developed the first artificial-skin patch that does not affect the touch sensitivity of the real skin beneath it. The new ultrathin sensor, which is made from multilayers of ...

(Nanowerk News) The rapid development of ultra-thin electronic skins (e-skins) – also called epidermal electronics or electronic tattoos – is opening new realms of possibility for flexible and ...

An array of uniquely positioned microcapacitors gives a robotic glove the ability to sense both skin pressure and shear force, providing touch and feel capabilities similar to a human hand. The ...

Researchers have developed an ultrathin pressure sensor that can be attached directly to the skin. It can measure how fingers interact with objects to produce useful data for medical and technological ...

Scientists have reported a stretchable pressure insensitive strain sensor by using an all solution-based process. The solution-based process is easily scalable to accommodate for large areas and can ...

The team also hopes their sensor can be used for the novel task of digitally archiving the skills of craft workers. Sensitive fingertips. The sensor is much thinner than human hair and does not affect ...

As wearable health monitoring advances, the demand for flexible pressure sensors that combine high sensitivity, full-range linearity, and medical-grade accuracy continues to grow. Now, researchers ...

A technology has been developed to continuously measure blood pressure with ultrasound, eliminating the need for a cuff. This method uses a miniature, skin-attachable sensor to detect real-time ...

An array of uniquely positioned microcapacitors gives a robotic glove the ability to sense both skin pressure and shear force, providing touch and feel capabilities similar to a human hand. The ...