Metallic snowflakes
The thing that seems time waste can be the key to next-generation bio- and nanotechnical robots. Perfect pearls can turn tougher by using pressure systems. And then lasers and other systems can just remove enough material from those balls that they fit into those places.
Genetic engineering makes it possible to create very small-size pearl oysters that can make pearls that are the size of less than hair. Those pearls can cover with carbon bites or nano-diamonds. Then they will slip into the cells. And then those nanocarbon bites are released. That thing can destroy the cell immediately.
The nano-balls are extremely multipurpose tools. They can transport genomes to targeted cells. The DNA can pack in the hollow ball there is the enzyme plug that closes the DNA inside it. When that kind of nano-ball slips into the cell the enzyme will destroy the original DNA. And then the manipulated DNA will replace the original DNA in the cell.
That transforms it into a new cell. In some visions, the cell organelle that is poisoned with genetically engineered RNA will transform into the cell. That system will destroy the original cell organelle will. And then the polluted cell organelle will transfer into that cell. That thing can turn the cell to make the antigens that can resist viruses or bacteria.
Pearl-oyster
Or the nano-size snowflakes can just connect with some enzyme. That delivers nutrients for certain cells. And then those metal snowflakes start to rotate like a propeller. That thing breaks the internal structure of the targeted cell.
The bio-technically produced nano-, or miniature balls can use as next-generation medical transportation. Or the system can shoot those balls to the cells.
But those small balls or pearls can also use in miniature bearings. Miniature robots require that technology.
Those miniature snowflakes can use in very small relays, routers, and switches in the next-generation components in new network systems that deliver power for very small microchips. The problem with nano- and other miniaturized technology is that those systems require very many actors.
And mass production is the key element in those nano-systems. If nanomachines can someday replace traditional medicines they are the ultimate tool. But the problem is how to control those systems. If some nanomachine goes out of control that thing turns a person into liquid.
The problem with miniaturized technology is how to control those things. Nanomachines are offering new choices for making new medicals. They are the biggest opportunity for humans. But in the wrong hands that technology can be devastating.
https://scitechdaily.com/nanotech-scientists-created-something-unexpected-tiny-metallic-snowflakes/
https://scitechdaily.com/genetic-research-reveals-molecular-fingerprint-behind-beautiful-pearls/
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