Students recently unveiled their invention of a robotic actuator -- the 'muscle' that converts energy into a robot's physical movement -- that has the ability to detect punctures or pressure, heal the ...

A University of Nebraska-Lincoln engineering team is another step closer to developing soft robotics and wearable systems that mimic the ability of ...

Inspired by biology, this soft robot muscle uses a three-layer system to recover from punctures and crushing forces, ...

The team also embedded the e-skin into a wearable system where it captured muscle activity data during exercise. The ...

Recent advances in flexible bioelectronics enhance bio-tissue-electronic integration, addressing challenges like foreign body ...

North America holds a significant market size: The North America region holds the maximum market share in the self-healing networks market as it is already in line towards the adoption of modern ...

Inflammatory markers show immediate reduction following experiences of being deeply heard. This anti-inflammatory effect ...

A multidisciplinary team at the University of California, Berkeley, the Georgia Institute of Technology and the Hong Kong University of Science and Technology has developed a stretchable, self-healing ...

Successive channels contain resin with self-healing agent and hardening agent/activator material ... that integrate one or several laboratory functions on a single integrated circuit — from ...

How an applied electric field for medical electrotherapy speeds wound healing. Creation of the self-powered ... is in an open-circuit, inactive state when the separator is dry.

Such printed structures can also self-heal from damage. If you scratch or deform the circuit, you can simply heat them up past the low melting point and they'll re-solidify back into their ...