Scientists have built an artificial motor capable of mimicking the natural mechanisms that power life. Just like the proteins in our muscles, which convert chemical energy into power to allow us to ...

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 ...

A research team has successfully developed innovative artificial muscle fibers capable of producing and storing energy. The team anticipates that these findings will have broad applications in fields ...

A research team led by Senior Researcher Sangkyoo Lim has successfully developed biomass-based shape memory polymer fibers capable of simultaneously producing and storing energy. - These artificial ...

(A) A summary plot illustrating the elastic modulus range of the artificial muscle compared to representative biological tissues, highlighting the biomimetic mechanical properties of the ...

A team of researchers has developed innovative artificial muscle fibers that can produce and store energy. These fibers mimic real muscles and could transform industries such as advanced textiles, ...

The team utilized molecular design to synthesize the artificial muscle through block copolymerization of biocompatible perfluoropolyether (PFPE) and polycaprolactone diol (PCL). By precisely ...

Proteins are life's engines, powering processes like muscle movement, vision, and chemical reactions. Their environments-water, lipid membranes, or other condensed phases-are critical to their ...

“The field of soft robotics hadn’t even been born when I started researching artificial muscle technology in 2004,” he says. “But now, we have collaborators in Japanese industries looking ...