Snowflakes and nanotechnology

Researchers who are working with nanotechnology are interested in snowflakes. Snowflakes are complicated, and their form is unique. By using information about conditions that are making a certain type of snowflake. Researchers can create complicated structures where the same form repeats time after time.

That allows them to create a large mass of complicated molecular structures by using molecules. That have similar magnetic abilities to water. Or those molecules must have polarity. The idea of benefiting snowflakes for creating complicated-shaped nanotechnical structures works best with flat 2D structures. The nanotechnical systems can make many things. Which are impossible by using regular technology. 

When we are thinking about simple nanorobots that have two square-looking structures that are rotating in opposite ways. That system can make it possible to create so-called micro- or nanobubbles. The idea is that this type of small nanomachine just makes supercavitation. The speed of those opposite rotating plates can make the liquid vaporize. 

That kind of nanomachines can use to close the veins that are transporting nutrients to tumors. In that case, the system can simply fill those veins by using nanobubbles. That is created by using supercavitation nanomachines. Those nanomachines can also slip into the cells and then fill them with bubbles. 

Image 2) 2D-nanomachine

The nanomachines slip into the veins. And then some outcoming effects like radiowaves are making those small rotors rotate. The system can get its power from intelligent plaster. 

The plaster can have an antenna that delivers radio waves to those nanomotors. That system can use solar panels. But if the system can be implanted in the user's body that thing makes it safer. The user would not lose that technology. In the implanted model. The control chip is implanted in the user's body. And intelligent tattoos are delivering electricity for the nanotechnical microchips. The intelligent tattoo is the entirety of miniature photovoltaic cells that are looking like a tattoo. 

And there is a microchip that controls the number of those bubbles. The microchip just controls how fast those rotors are rotating. The system can also use intelligent tattoos that are nano-size solar panels or hybrid systems that are using radio waves or sunlight to deliver energy to the microchip that controls the nanosystems. 

The user can adjust the speed of those rotors by using a mobile application and the controlling microchip can be surgically implanted under that intelligent tattoo. The system requires an adjustment tool because if there is forming gangrene in the tumor that thing causes terrible danger. There is a horrifying vision that somebody uses that kind of system as an assassination or blackmailing tool.  

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https://scitechdaily.com/seemingly-impossible-nanostructure-compresses-light-10000-times-thinner-than-a-human-hair/