A new research paper suggests scientists are working on designing robots that could live on muscle cells like humans, ...

According to a study, robots built with lab-grown skeletal muscle tissue could require physical exercises similar to those of humans. Called biohybrid robots, these innovations can achieve lifelike ...

A brand-new engineering approach at Carnegie Mellon University is creating “designer” biological robots using human lung cells. Known as AggreBots, these microscale living machines may one day ...

Researchers at Case Western Reserve University have combined tissues from a sea slug with flexible 3-D printed components to build “biohybrid” robots that crawl like sea turtles on the beach. A muscle ...

Structure—metal or plastic components bolted together in a traditional robot; the body in a biological structure or biohybrid robot; Actuators—the device that causes the structure to move (e.g. a ...

Forget gears and motors. The next generation of robots may run on living muscle. Scientists are now fusing biological tissue with engineered ...

Biohybrid robotics integrates living tissues with engineered materials to yield devices that blend the adaptability of biological systems with synthetic robustness. This convergence of biology and ...

Stuttgart – A team of researchers at the Max Planck Institute for Intelligent Systems (MPI-IS) in Stuttgart developed a biohybrid micro swimmer covered with magnetic material, whose swimming ability ...

E, elastic modulus; EEG, electroencephalography; ECoG, electrocorticography; WC, water content; COF, coefficient of friction; IOP, intraocular pressure; ECG ...

In nature, the ten-micron small, single-cell microalgae are fantastic swimmers, propelled by their two whip-like flagella at the front. However, it wasn’t clear what would happen if scientists covered ...