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.
Interesting Engineering on MSN
From lab to life: How US engineers teach humanoid robots balance and precision
The study mentions that risk assessment of a robot in controlled environments, such as laboratories and proving grounds, is a common means to assess, certify, validate, verify, and characterize the ...
The Daily Galaxy on MSN
The Video You’ll Watch Three Times Over: This Humanoid Robot Can Walk, Fly, Roll and… Transform in Mid-Air!
In a demonstration that signals a new chapter in mobile robotics, researchers at the California Institute of Technology have introduced a machine that can walk like a human, take flight like a drone, ...
Humanoid robot training is booming around the world. Tech companies are rushing to build the robots for a market projected to ...
AgiBot is using AI-powered robots to do new manufacturing tasks. Smarter machines may transform physical labor in China.
A little robot gobbles up little blocks on the floor of St. Michael’s Catholic Preparatory School’s gym. In the skies above ...
Unlike traditional robots that rely on electric motors or mechanical parts, biohybrid robots are powered by living muscle ...
Xpeng's new humanoid, IRON, is designed to work alongside people — but it won't be folding your laundry anytime soon.
Scientists at the University of Oxford have created a new type of soft robot that moves and reacts without using any ...
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