The gel-based material contains a uniform conductive layer that changes its electrical pathways in response to different stimuli such as pokes, burns, or cuts. This enables the material to simplify ...

Scientists unveil a low-cost, gelatin-based robotic skin that senses touch, heat, and cuts. The skin could give robots and prosthetics a lifelike sense of feel using fewer components.

SUTD researchers 3D print biodegradable conductive electronics using direct ink writing and cellulose acetate dissolved in acetone.

A team of scientists might have been able to give robots the chance to ‘feel’ sensations and external stimuli. This is ...

A mysterious blob sits on a lab table in Tulane University’s Stern Hall. It’s slimy, squishy and a little bigger than a ...

Conductive hydrogels increase an implant 's electrical conductivity and flexibility within the body, improving the overall effectiveness of electronic implants.

What are hydrogels, and what are they used for? These water-absorbing polymer networks have applications in drug delivery, wound healing, biosensors, and energy storage. Learn how researchers are ...

A new conductive hydrogel improves spinal cord injury monitoring, offering better sensitivity and real-time tracking for patient recovery.

Researchers develop conductive gel to improve study of spinal cord injuries Material transmits clear signals yet remains flexible for when patients move around Peer-Reviewed Publication Binghamton ...