Xenobots: The Future of Living Machines


As technology continues to evolve, scientists are exploring new and innovative ways to develop living machines. One such discovery is the tiny living machines called Xenobots. These machines are built from frog cells and are capable of self-replication, making them an exciting and promising breakthrough in the field of robotics.

What are Xenobots?

Xenobots are small, living machines made from the stem cells of African clawed frogs. These machines are designed to move and have the ability to self-replicate. The technology behind Xenobots is a result of a collaboration between the University of Vermont and Tufts University.

How are Xenobots made?

The creation of Xenobots involves extracting stem cells from frog embryos, then using a supercomputer to design the shape and behavior of the living machines. Once designed, the stem cells are incubated and developed into the final Xenobot form.

How do Xenobots work?

Xenobots work by using their unique design and self-movement abilities to perform tasks such as removing toxins from the body or delivering drugs to specific areas. These machines can also work together in a swarm to achieve a common goal.

Applications of Xenobots

Xenobots have a wide range of potential applications in various fields. In the medical field, they can be used to deliver drugs to specific areas of the body or to remove harmful toxins. In the environmental field, they can be used to clean up pollution or to monitor water quality. In the future, they may also be used in space exploration and other areas of research.


Xenobots are a groundbreaking development in the field of living machines. With their ability to self-replicate and perform complex tasks, they hold enormous potential for a wide range of applications. As technology continues to evolve, we can expect to see even more exciting developments in the field of living machines.