(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 artificial ...

The human body moves through a coordinated effort of skeletal muscles, working in concert to generate force. While some ...

Muscle contraction hardening is not only essential for enhancing strength but also enables rapid reactions in living organisms. Taking inspiration from nature, the team of researchers at QMUL’s School ...

Soft robots are only as capable as the artificial muscles that drive them, and for years those muscles have forced a trade-off between strength and flexibility. A new magnetic polymer design is ...

A Korean research team has created a light-driven artificial muscle that functions independently underwater, advancing the future of soft robotics. The system, developed by the Korea Research ...

A dual cross-linked magnetic polymer solves the fundamental trade-off limiting soft artificial muscles, achieving ...

In the dynamic landscape of intelligent technology, electrically powered artificial muscle fibers (EAMFs) are emerging as a revolutionary power source for advanced robotics and wearable devices.

Are artificial muscles the future in robotics? This is a question what an international team of researchers led by the Max Planck Institute for Intelligent Systems (MPI-IS) hope to answer as they ...

In a recent article published in Gels, researchers from China developed multilayer porous plasticized polyvinyl chloride (PVC) gel artificial muscles using carbon nanotube-doped 3D-printed silicone ...

Roboticists have been motivated by a long-standing goal to make robots safer. The new actuator could be used to develop inexpensive, soft, flexible robots which are safer and more practical for ...