(Web Desk) - Researchers in South Korea have built an artificial muscle that can lift approximately 4,000 times its own ...

There’s a magical kingdom in Roseville, California, where time stands still and yesterday’s discards become today’s treasures. Welcome to Antique Trove, the secondhand paradise that has collectors and ...

Preston, has developed a textile platform that sends information through touch rather than sight or sound. “Every device ...

A team of researchers from the National Institutes for Quantum Science and Technology (QST) and Tokyo Metropolitan University has developed a biomaterial that could change how we treat muscle ...

This dual cross-linking design lets the muscle switch stiffness on demand. In lab tests, its stiffness jumps from about 213 kilopascals — soft, like rubber — to 292 megapascals, hundreds of times ...

Get a set that can hold two tumblers (plus a hook for stacking lids) from Amazon for $15.99 (also available in sets that can ...

Aligned with Duke Engineering’s Character Forward initiative, Professor Siobhan Oca’s Ethics in Robotics and Automation course (ME 490) challenges students to see beyond technical skills and practice ...

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

Neo is the new humanoid from 1X, designed to handle household chores with a voice, movements, and body similar to those of a human being. It costs twenty thousand euros and brings AI into domestic ...

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.

Soft elastic material uses energy-free floppy modes to perform and reprogram calculations, enabling smarter robots and ...