The water molecules can use as layers for hovering nanomachines. Or nanomachines that can operate in extremely low temperatures. The form of water molecules is like an antenna. So the electromagnetic ray will aim at hovering water molecules. And that is conduct radiation to that layer.
In nanotechnology, the key element is to connect molecules to structures. That operates as an entirety. The water molecules can form extremely complicated structures.
And they can put together like some kind of building kit. These kinds of forms are making it possible to create nanomachines. These kinds of structures are sometimes possible to stabilize only in extremely low temperatures.
Also, those nanomachines can form by using water molecules. Water has a quantum state or quantum form. The polarity of that molecule is making it possible to connect them by using electromagnetic force or Van der Waals force as the glue.
But as I wrote the complicated water molecule-based structures are needed the molecule size structures. And only opposite poles of those molecules are keeping structures in form. That means the temperature must be near zero kelvin that this thing will succeed.
That is not seen in everyday life. That quantum state is connected with the polarity of water molecules. The polarity of water molecules means that the water molecules can connect by using electromagnetic forces. Chained water molecules can use as the quantum wire.
But there is one other thing that is possible to make by using water molecules. If we are making the layer that is one molecule thick. That is making it possible to create the entirety for controlling nanomachines. That is making the nanomachine hover around the surface.
If the oxygen molecules of the water molecule are against each other. That thing makes it possible to make the small nanorobot hover above that layer. The chain of water molecules can form that kind of nanomachine. The water-molecule chain can hang from the magnetic layer. And there is possible to conduct electricity.
Electrons will travel from the upper layer through the nano-tower. Then that electricity will tunnel to the down layer. There are two ways to move objects by using this kind of nanomachines. One is to benefit from the tunneling effect between that molecule tower. And another is physically pushing objects at the layer.
The fact is that the water molecules can hover above any kind of structure. That has the same pole that is against the layer. There is the possibility to use two layers where the nanomachine can hover between them. In superconducting conditions where the temperature is near zero kelvin. The oscillation is extremely low. The low temperature is making it possible to stabilize the system.
The water-based nanomachines are suitable for operating at temperatures that are lower than zero. The fact is that if we want to make microchips that are using nanotechnology. The temperature in those processes is extremely low because that stabilizes the system.
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