It has been a long endeavor to create biohybrid robots – machines powered by lab-grown muscle as potential actuators. The flexibility of biohybrid robots could allow them to squeeze and twist through ...

Striving to stand out in the competitive humanoid robotics market, Polish-frim Clone Robotics has unveiled its first full-scale humanoid robot, Clone Alpha. The humanoid integrates synthetic organs ...

Biological muscles act as flexible actuators, generating force naturally and with an impressive range of motion. Unsurprisingly, scientists and engineers have been striving to build artificial muscles ...

MIT engineers grew an artificial, muscle-powered structure that pulls both concentrically and radially, much like how the iris in the human eye acts to dilate and constrict the pupil. We move thanks ...

Our muscles are nature’s actuators. The sinewy tissue is what generates the forces that make our bodies move. In recent years, engineers have used real muscle tissue to actuate “biohybrid robots” made ...

Jun Zhang, Ph.D., is an assistant professor in the Department of Mechanical Engineering at the University of Nevada, Reno. His research interests lie in the intersection of control theory, robotics, ...

(Nanowerk Spotlight) Artificial muscles hold the promise of revolutionizing fields ranging from robotics and prosthetics to biomedical devices. These lightweight, flexible materials can mimic the ...

That’s not a vanity statement for those who want to look good or a performance issue for those who want to be better, stronger, and faster. It’s a medical issue and has been for a long time. And if ...

Researchers created tough hydrogel artificial tendons, attached them to lab-grown muscle to form a muscle-tendon unit, then linked the tendons to a robotic gripper's fingers. (Nanowerk News) Our ...