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Graphene, the material of tomorrow
Graphene is the network of carbon atoms on the layer, and that thing makes it 2-dimensional graphite. When we are thinking about the situation that the layer would be covered by using graphene, that thing would make it possible to create the lightweight and sophisticated armor for all surfaces. If the tires of the vehicle are covered by using graphene, that would give them extremely good strength. But graphene can also buff around the mold, and those layers can put one on the other, which makes it possible to make even large things by using that material.
But the thing is that the graphene layers can put one on the other, which makes it possible to make things like houses, aircraft, and ships by using the graphene, what is put layers like puff pastry dough, what makes the structure very lightweight but at the same time hard. The graphene is the series of the carbon atoms, what is forming the network.
The ultra-secure data network can use graphene or carbon atom chains as the wire. And photons can travel in the protection of the quantum fields around the carbon atoms.
So the carbon atoms can position a certain angle that could also make it possible to make the data network, which cannot be hacked. The idea is that photons or electron will launch through the line of atoms, and that makes them impossible to detect from outside.
Or if the graphene is cooled near the zero kelvin degrees, that makes it possible to transport data by benefiting the oscillation of the quantum fields of the carbon. That makes the quantum network true, and that kind of thing cannot be broken by using traditional methods. But the temperature of those atoms must be extremely low.
If laser ray travels in a nanotube, it cannot be observed from outside. And that solution makes it possible to make a secured network, which works also at room temperature.
Carbon fullerene nanotubes can be used for protecting the extreme thin laser rays, which cannot be observed from the outside the tube, and because the data transporter would not be detected by using photocells, that would protect the data. This kind of version of the ultra-secured network would operate at room temperature, but if the temperature would be extremely low, that tube can have many layers for transporting data. The laser ray, but also the magnet fields around atoms can transport the data, and that makes that kind of thing very useful.
But graphene can make the invisible swords true because it allows engineers to make blades, what width is only a couple of atom layers.
And the graphene can be used in weapon technology. Bullets and other ammunition can be covered by using that material. That makes that ammunition extremely hard. But the graphene is making it possible to make invisible swords and axes. That means that the next-generation swords might be only one or two layers of atoms, and that would make them hard to detect. And that is the thing, what could make the story of things like witches with "invisible swords" true.
https://www.knowablemagazine.org/article/technology/2019/graphene-2d-materials
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