A research team has made a significant breakthrough by creating an "intelligent artificial muscle" that mimics the functions of biological muscle–tendon complexes. This innovative technology, developed recently, features liquid metal channels embedded within a liquid crystal elastomer (LCE). The artificial muscle is designed to contract when stimulated electrically, while simultaneously measuring its internal force and length in real time. This dual capability enhances its potential applications in robotics and prosthetics, providing a more responsive and adaptable solution for mimicking natural muscle behavior. The research aims to advance the field of soft robotics and improve the functionality of artificial limbs, addressing the growing demand for more sophisticated and efficient robotic systems.
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