The eBiobots were created using a combination of techniques, including 3D printing and microelectronics. The soft polymers were printed into the desired shape and then seeded with muscle cells. The microelectronics were then added to the mix, creating a wireless system that can be controlled remotely.
The researchers have dubbed these machines “bio-hybrid” because they combine both living and non-living materials. This unique blend allows the eBiobots to perform tasks that either biological or mechanical systems alone could not accomplish.
One potential application for eBiobots is in the field of medicine. The machines could be used to deliver drugs or perform surgeries with greater precision than current methods allow. Additionally, eBiobots could be designed to specifically target and destroy cancer cells, while leaving healthy tissue unharmed.
Another potential application is in environmental monitoring. The eBiobots could be designed to swim through water, detecting and measuring pollution levels. They could also be used to explore remote or hazardous environments, such as deep sea or space.
The development of eBiobots marks a significant milestone in the field of robotics. By combining biological and mechanical systems, researchers are creating machines that are more adaptable, versatile and efficient than ever before. As the technology continues to evolve, the possibilities for eBiobots are endless.
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