The new biological microchips can revolutionize mobile technology.

The bacteria can use in self-repairing organic microchips. The use of living cells as the base of the new biological microchips is making it possible to create microchips that can implant into the human body. 

Genetic engineering makes it possible that the surface antigens of those living microchips are similar to their user's antigens. And that denies the immune reaction against those microchips. When we are thinking about the organic- self-assembling and self-repairing microchips we could install them in the nervous system by simply injecting those systems into the blood vessels. 

Then the encoded DNA would make those microchips swim to the right point of the nervous system. The use of implanted microchips is limitless. They can use to control mobile telephones or the pilot can control every system of the jet fighter by using brain implanted microchips. But the problem with regular microchips is that they need surgical operations. The self-assembling living microchips can simply inject into the body. 

They can take electricity from the nervous system. And communicate with other computers by using a high-tech bandanna. When those microchips are not needed anymore they can put themselves to pieces. And then those microchips can remove themselves automatically from the body.

The organic microchips are making it possible to use the cloned neurons in the devices. Living, cloned neurons are the same way fascinating tools in the computer sciences as some quantum computers are. Of course, living neurons require nutrients, but they can boost computing. 

Biological solar cells are the new area for biotechnology. And living cells are making it possible to create self-repairing biological robots. 

Along with chlorophyll-molecule-based solar cells that new biological system can be the next big step for computing. The biological microchips can get energy from biological solar cells. The biological solar cells can be self-repairing. In those systems, the chlorophyll is in small protein capsules. 

There is the possibility that genetic engineering makes it possible that the system can make those protein capsules automatically. And then another genetically engineered bacteria can inject chlorophyll molecule into that protein capsule. The microchip-controlled genetically engineered bacteria can make many very complicated things. So there is the possibility that those biological microchips are injected into bacteria for making them the biorobots. 

There is the possibility, that if some photosynthetic bacteria have two poles those bacteria can create electricity for nano-size microchips. That thing makes it possible to create self-assembling devices. The core of biological research and intelligence devices can be made by using chorale animals or some bamboo. The cells of the core make that structure able to repair itself. 

https://phys.org/news/2020-01-chlorophyll-molecule-key-solar-cells.html

https://www.sciencedirect.com/science/article/pii/S0264127520305177

https://www.sciencedirect.com/science/article/pii/S0264127520305177

https://scitechdaily.com/surprising-bacterial-nanowire-discovery-may-lead-to-living-and-self-repairing-electrical-circuits/

Image: http://archive.neural.it/init/default/show/1432

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