This is the first self-powered aqueous robot capable of working autonomously

This technology would allow autonomous robotic systems to examine small chemical samples for clinical applications or drug synthesis.

When we talk about robots, those mechanical elements created from different materials that can help us in different companies always come to mind, but in addition to the robots of a lifetime, there are also aqueous robots or “liquibots” that are capable of making others. tasks.

So the progress of a team of researchers from Department of Energy Lawrence Berkeley National Laboratory (Berkeley Lab) and the University of Massachusetts Amherst who have built different liquid robots capable of moving on water like small submarines and performing different tasks.

It is the first self-powered aqueous robot that can work autonomously and without the need for electricity and that it could focus on a drug delivery system for pharmaceutical products.

We have broken a barrier in designing a liquid robotic system that can function autonomously by using chemistry to control the buoyancy of an object.”, He says Tom Russell, professor of polymer science and engineering at the University of Massachusetts Amherst.

He adds that “we don’t have to provide electrical power because our liquibots get their energy chemically from the surrounding media“, Explain.

These liquibots have only 2mm diameter, are denser than the solution and are capable of triggering a reaction that generates oxygen bubbles on said solution. Another reaction pushes these robots to the edge of a container where they unload their cargo.

The good thing about this system is that liquid robots come and go like a clock’s pendulum and can run continuously.

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These aqueous robots can perform multiple jobs at the same time, some being able to detect different types of gas in the environment while others would react to specific types of chemicals.

Reference-computerhoy.com