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Biotechnology and material, what can fix themselves


Biotechnology and material, what can fix themselves

When we are thinking about cell cultures, we can think that also in the laboratory cells are growing on the platform, where is a nutrient, and those cells are following the form of the mold. That thing has given ideas to create the layers, what can fix themselves by using biotechnology. 

In this idea, the wanted cells are cultured in the tanks, what has a certain form, and that means that those cells can make the thing, what looks like exactly what it should be. In things like wooden tables is used the wood, what is taken from the natural environment, but what if we would grow things like the board in the laboratory by using selected cells, where cells, what is forming the boughs are removed. Biotechnology allows connecting the genomes of the skin of bats, and genomes of vegetables, which would make those creatures extremely fast-growing. 

Or the cells that are forming the toughest tree is chosen in the culture. The cells can be put in the mold, which is created by using bulletproof glass, and that thing allows to create the staves in that mold, and then that mold can be just hit away from that wooden layer. And this thing could revolutionize many things in the industry. But the most incredible idea is to hybridize diatoms and wood cells, that those cells can create the silicone layer, which could fix itself. 

That kind of biomaterial, what can repair itself and create the new particles for replacing the destroyed makes that thing interesting point of view of the space flights, but it could also be used in other techniques. In this system, the cell culture would be covered by extremely thin polymer, which denies that those cells would make touch with the vacuum, radiation or other stress. And the only thing, that this thing needs is the nutrient. 

The benefit of this kind of thing is that the layer can fix itself. If that kind of layer is created by using nanotechnology, where the nanomachines would touch together, the damages of that structure must be fixed by creating the new nanomachines. In that vision, the nanotech components would look like some kind of microchip. 

There the entire layer is made by using the microchip-looking nanomachines, where another side would have feet and the other parts have holes, where those bites can put the sticks. That thing allows that every single part of the layer can be removed and put in the place like Lego or like a high-tech jigsaw puzzle. That thing is very interesting, but what if those layers are created by using biotechnology, where the material can fix the damages without order, which shows the abilities of the biomaterials. 

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