Discover how Allonic is revolutionizing robotics with their unique 3D Tissue Braiding process for compliant robot design.

Magnetic graphene oxide sheets fold, move, sense motion, and switch function by swapping magnetic layers, offering a fast, reprogrammable platform for soft robots and other morphable structures.

McGill University researchers 3D print hydrogels directly onto vocal cords using one of the smallest bioprinters in the world.

Have you ever wanted to wipe down a table hundreds of times while Elon Musk watches? Training Tesla's humanoid robot might be the job for you.

One day, robots might navigate through your blood vessels to break up clots, deliver targeted chemotherapy or repair ruptured blood vessels more efficiently and effectively than existing tools, ...

Scientists have built a robot that doesn’t just walk — it flies, skateboards, and even balances on a slackline. Combining ...

Robot makers want us all to believe we’re on the brink of an autonomous humanoid robot revolution. But that’s just not true.

Abstract: 3D rendering plays a crucial role in emerging applications like virtual reality and embodied AI. Unlike traditional Neural Radiance Fields (NeRF) [1], the novel 3D Gaussian Splatting ...

Having a robot housekeeper like Rosie from The Jetsons cartoon isn’t all that far-fetched. In fact, it’s becoming a reality — ...

Columbia scientists built robots that can grow, heal, and adapt using “robot metabolism,” mimicking nature’s self-sustaining ...

Scientists unveil a flexible 2.7 mm bioprinter that lets surgeons reconstruct vocal folds and prevent scarring after throat ...

After vocal cord surgery, many patients develop stiff vocal folds that impact their ability to speak. Hydrogels can help prevent this by promoting healing, but delivering hydrogels to the vocal cords ...