Polymer-based conductive nanocomposites, particularly those incorporating carbon nanotubes, are highly promising for the development of flexible electronics, soft robotics and wearable devices.

Wearable devices offer substantial potential for personalized medicine and non-invasive monitoring of human health. Early progress focused on devices that sense physical activity, such as body ...

The M.VICS cockpit system Hyundai Mobis showcased last year helps with autonomous driving with the inclusion of various new technologies, including an ECG sensor, driver monitoring camera, and ...

Credit: Casana. The toilet seat-based monitoring system measures heart rate and blood oxygenation. The Food and Drug Administration (FDA) has cleared Casana’s Heart Seat ™ toilet seat for use in a ...

When it comes to safety at schools, most people worry about the threat of an active shooter entering school grounds. This is a true concern, but there is also another concern lurking in our schools ...

Mention “smart home” to a prospective client, and they’ll immediately think of futuristic touch screens, smart thermostats, voice-activated lights, robot butlers, etc., but the real devices that make ...

Researchers created stretchable, conductive CNT composites with 3D printing, powering smart insoles and wearable sensors for real-time health tracking. To overcome these challenges, researchers are ...