Meet the team behind the 3D-printed stretchable sensors equipping machines with a sense of touch. Robots can’t feel. Or can they? Engineering researchers at the University of Minnesota have developed ...

We’re one step closer to a future where prosthetic limbs will be synonymous with the real thing. Researchers from South Korea have created a stretchy, cybernetic skin that can sense pressure, ...

The figure above shows the components of the artificial skin Crack-based tactile sensor, Wireless powered pressure-frequency modulation (WPPFM) circuit, and neural interface electrodes of the human ...

Researchers in South Korea have developed a human-implantable tactile smart bionic artificial skin that can restore permanently damaged tactile senses. Damage to nerve tissue causes loss of sensory ...

The high-density stretchable multimodal sensor achieves effective hardness estimation through the synergistic operation of integrated pressure and strain sensors, enabling accurate discrimination of ...

U.S. researchers have developed a "revolutionary" process for 3D printing stretchable electronic sensory devices that could give robots the ability to feel their environment. The discovery, published ...