Able to autonomously split when encountering obstacles and seamlessly merge afterward, these magnetic microrobots represent a major advancement in soft robotics. Recently, Associate Professor Qu Juntian's team at Tsinghua University's Marine Soft Robotics and Intelligent Sensing Laboratory achieved a breakthrough in magnetically driven soft microrobotics. The team developed a programmable electromagnetic coil array control platform that enables magnetic robots to move as flexibly as liquid droplets, opening new possibilities for applications in precision medicine and micro-scale operations.