The breakthrough artificial muscles.
The new "silicone muscles" can give strength to a person. The system is based on a series of polymers that can system control using electricity. When electricity is conducted to that material the system will curve them. And that thing makes the muscles operate.
The description of that system goes like this: "Scientists have created thin, elastic bottlebrush polymer films that can function as artificial muscles at significantly lower voltages than currently available materials, potentially enabling their use in safer medical devices and artificial organs". (ScitechDaily.com/Flex Your Artificial Muscles: The New Low-Voltage Breakthrough)
Another way to make artificial muscles is to use small silicone bags there is electrolytic material. Or there is the serpentine-looking structure in the silicone. That structure can be a protein that reacts to electricity. There could be iron in those serpentines. And that makes it possible. The magnets can adjust the length of those protein serpentines.
Those flexible structures that can operate like real muscles are making it possible to create new soft nanorobots. And robots that look like humans or animals. The most effective versions of those systems can be a series of artificial tapeworms controlled by living neurons. Those OI (Organoid Intelligence-Based) robots can dissolve themselves. And then create the new entirety.
The liquid metal is actually a swarm of billions of nanomachines.
When we think of robots like T-1000 from "Terminator" movies those systems are closer than we think. If we think of the self-dissolving and self-assembling robots as puzzles we must realize that the number of pieces determines can the system make similar things as some movie robots. If the robot contains only a couple of pieces.
That thing is quite easy to make. But if we want that robot can look like a human and can turn into a chair or bike that thing requires millions or billions of bites. The liquid metal is the swarm of billions of nanomachines. And the only problem is how to make those nanomachines take the wanted form. In those systems, each particle must just know that particles are around them. And that information allows the creation those "liquid metal machines".
https://scitechdaily.com/flex-your-artificial-muscles-the-new-low-voltage-breakthrough/
https://www.scmp.com/news/china/science/article/2169960/chinese-scientists-develop-shape-shifting-robot-inspired-t-1000
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