Fullerene based hydride materials are giving new ideas for researchers of technology.
Silicon-carbon hybrid fullerenes can revolutionize materials and electric production. Those materials can be used as the fusion devices as well as creating the extreme hard layers.
Fullerenes and silicon are very interesting materials because both of them can be used as creating special layers for layers. If we think about graphene, what is one atom layer of carbon on the layer, that thing would make a very hard surface. And the thing is that the graphene can put on the surface as the dust, where the pencil would cover the entire layer, and then the laser would remove other atom layers away until there would be one atom layer of carbon on the surface.
That thing can revolutionize things like material research. Graphene has many targets for use from the tools to the layers of aircraft and space technology. The lightweight and extremely hard surfaces have many kinds of purposes in every target from everyday life to space technology. It can use to create harder components for mobile devices but the problem is how to remove extra atom layers from the graphite?
But the thing, what makes graphene more fascinating is that the technology, what is used to create this material can be used also for creating one atom layers from other elements. That means that the graphene would be very nice material itself, but it can be used in the same way the part of hybrid materials. In some scenarios, the graphene layer would be covered by a similar one atom layer of silicon, which makes the layer a very lightweight solar panel.
This kind of thing makes possible to create revolutionary aircraft and another kind of solutions. That kind of technology would improve the abilities of the long-range aircraft like U-2, which are used for extremely long-range intelligence operations. The graphene itself gives to that plane very hard covering layer, but if those layers could also produce electricity, that means that the layer would give more benefit to that aircraft.
One of the things is that those aircraft would need less fuel, and they can even shut down their engines during the flight because the solar panels would give electricity to the systems of that aircraft. And if the aircraft can glide in some parts of their missions, they would make longer operations.
Silicon- carbon hybrid fullerene would make possible to create an extremely small-sized fusion device, which can be launched by using simply the light. And this thing would make it interesting. That thing can use in the spacecraft, what is operating like "Orion", but uses fusion devices for giving the thrust. Replacing fission bombs by fusion, that vehicle could be more ecological.
But when we are thinking about the extremely large fullerene ball, what have billions of carbon atoms, we might think the situation, where that ball would cover by using the silicon atoms. Or it is simply put inside the silicon ball, that thing could make an interesting phenomenon. If there are small antennas inside the fullerene ball, what can be the metal atoms, that thing could create the electric arc inside that ball, and then there would be some gas like deuterium and tritium (or lithium), it can start the fusion reaction.
Of course, there is no need to be billions of carbon atoms in this kind of fullerene ball. Normal 110 atom fullerene, where is another layer of silicon atoms would make possible to create this kind of fusion reactor, which can have very many solutions like in the fusion rockets to nuclear weapons. The fusion rocket would shoot those fullerene pallets behind the spacecraft, and then the radio impulse would hit to them, which causes the explosion. But the silicon layer would make possible to use pure light in that kind of device.
Fullerenes and silicon are very interesting materials because both of them can be used as creating special layers for layers. If we think about graphene, what is one atom layer of carbon on the layer, that thing would make a very hard surface. And the thing is that the graphene can put on the surface as the dust, where the pencil would cover the entire layer, and then the laser would remove other atom layers away until there would be one atom layer of carbon on the surface.
That thing can revolutionize things like material research. Graphene has many targets for use from the tools to the layers of aircraft and space technology. The lightweight and extremely hard surfaces have many kinds of purposes in every target from everyday life to space technology. It can use to create harder components for mobile devices but the problem is how to remove extra atom layers from the graphite?
But the thing, what makes graphene more fascinating is that the technology, what is used to create this material can be used also for creating one atom layers from other elements. That means that the graphene would be very nice material itself, but it can be used in the same way the part of hybrid materials. In some scenarios, the graphene layer would be covered by a similar one atom layer of silicon, which makes the layer a very lightweight solar panel.
This kind of thing makes possible to create revolutionary aircraft and another kind of solutions. That kind of technology would improve the abilities of the long-range aircraft like U-2, which are used for extremely long-range intelligence operations. The graphene itself gives to that plane very hard covering layer, but if those layers could also produce electricity, that means that the layer would give more benefit to that aircraft.
One of the things is that those aircraft would need less fuel, and they can even shut down their engines during the flight because the solar panels would give electricity to the systems of that aircraft. And if the aircraft can glide in some parts of their missions, they would make longer operations.
Silicon- carbon hybrid fullerene would make possible to create an extremely small-sized fusion device, which can be launched by using simply the light. And this thing would make it interesting. That thing can use in the spacecraft, what is operating like "Orion", but uses fusion devices for giving the thrust. Replacing fission bombs by fusion, that vehicle could be more ecological.
But when we are thinking about the extremely large fullerene ball, what have billions of carbon atoms, we might think the situation, where that ball would cover by using the silicon atoms. Or it is simply put inside the silicon ball, that thing could make an interesting phenomenon. If there are small antennas inside the fullerene ball, what can be the metal atoms, that thing could create the electric arc inside that ball, and then there would be some gas like deuterium and tritium (or lithium), it can start the fusion reaction.
Of course, there is no need to be billions of carbon atoms in this kind of fullerene ball. Normal 110 atom fullerene, where is another layer of silicon atoms would make possible to create this kind of fusion reactor, which can have very many solutions like in the fusion rockets to nuclear weapons. The fusion rocket would shoot those fullerene pallets behind the spacecraft, and then the radio impulse would hit to them, which causes the explosion. But the silicon layer would make possible to use pure light in that kind of device.
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