MIT engineers 3D print multidirectional muscle tissue that flexes like the human iris - opening new paths for biohybrid ...

Researchers at Empa are developing artificial muscles that could one day move like real ones. Using advanced 3D printing, ...

Now, MIT engineers have taken a major step toward developing robots that replace rigid gears with something much softer – ...

If this light-activated stuff works, it could make building robots easier - or make lazing about under the Sun quite a ...

MIT engineers have made a breakthrough in this area—they’ve developed a method to grow muscle tissue that contracts in ...

They have now developed a method of producing the soft and elastic, yet powerful structures using 3D printing. One day ... or ...

Empa researchers move closer to creating soft, elastic actuators that mimic human muscles.

The human body moves through a coordinated effort of skeletal muscles, working in concert to generate force. While some ...

Scientists at MIT have created a new kind of artificial muscle that can flex and move in multiple directions, much like real ...

Scaling up biohybrid robots has been difficult due to the weak contractile force of lab-grown muscles, the risk of necrosis ...

Researchers have developed a 3D printing method for soft actuators, paving the way for artificial muscles in robotics, ...

Researchers from the University of Tokyo and Waseda University in Japan have developed a biohybrid robot hand powered by ...