Scientists at The Chinese University of Hong Kong have made a significant breakthrough in the field of robotics by creating a mini version of the iconic shape-shifting robot, T-1000, from the movie Terminator 2. This robot, which is controlled with magnetic particles embedded in its material, can change to a liquid shape to move past obstacles and then solidify again.
The team demonstrated how the robot can melt through the gaps in metal bars and jump over moats, climb walls, and even split in half to move other objects around before coming back together. This discovery has multiple potential applications, from medicine to assembly lines. The material used to create the robot could make it easier to solder and screw parts in places that are hard to reach, as well as remove foreign objects from a model stomach and deliver drugs on-demand.
The team is planning to further explore the potential use of these robots within a biomedical context in the future. This research has the potential to revolutionize the way we think about robotics and its applications in various industries. The Chinese University of Hong Kong team’s innovation is a step towards creating robots that can adapt to any situation and environment, making them even more useful in various fields.
In summary, the Chinese University of Hong Kong team has created a mini version of the T-1000 robot from the movie Terminator 2 which can change its shape to move past obstacles and then solidify again. The team demonstrated how the robot can melt through the gaps in metal bars and jump over moats, climb walls, and even split in half to move other objects around before coming back together. It has multiple potential applications, from medicine to assembly lines and the team is planning to further explore the potential use of these robots within a biomedical context in the future.