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Nanorobotics Summat A.1, Cuba A.1, 2, Sharma G.1, Avoids C.1, * 1 Department of Mechanical and Industrial Engineering, Northeastern University, 360, Huntington Avenue, Boston, Massachusetts 02115,

Article describes a nanobioreactor that can be used to produce high quality, biologic materials capable of bionic self-assembly and self-repair. This system consists of a substrate of DNA polymerase, a polymerase capable of synthesizing DNA and a DNA polymerase capable of synthesizing RNA. The DNA polymerase is designed for a specific DNA polymerase catalytic domain, resulting in a DNA/RNA hybrid system that is capable of self-assembly in aqueous solutions. The molecular motors in this system are capable of self-assembly into canoeists and the DNA/RNA hybrid is capable of self-replication and self-repair. The authors also describe the production of carbon nanotubes through the use of nanotubes as the banshee of nanomachines. It was found that carbon nanotubes are highly capable of performing some required functions needed for biological self-assembly. The authors were also able to engineer a method of producing polymerizable RNA by using enzymes that can specifically cleave RNA polymerase. A method of self-assembly into RNA/DNA hybrid nanobots, a method of DNA/RNA hybrid nanomachines, and a method of synthesizing fiber-like materials were designed and demonstrated. Keywords: Nanobeactions, Molecular nanotech, Bionic self-assembly, Self/reproduction, Self repair, SanDisk. 3 Abstract This article describes the production of DNA/RNA hybrid nanobots that can incorporate genetic information and self-replicate in aqueous media. The authors developed two methods for the production of DNA/RNA hybrid nanobots capable of inserting genetic information into a DNA/RNA hybrid and self-replicating in aqueous media. These methods were both successful for the production of DNA/RNA hybrid nanobots of both size and complexity. The methods were also able to detect the ability of the hybrid nanobots to detect genetic information and self-replicate in aqueous media. Keywords: Nanobots, DNA, self-replicate, RNA, polymerase, DNA nanotechnology, self-assembly and self-repair, DNA/RNA hybrid nanobots. 4 Abstract To explore the self-assembly of DNA/RNA hybrid nanobots, a series of experiments were carried out to measure the ability of DNA polymerase to self-assemble into DNA/RNA hybrid nanobots.

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Nanorobotics for fractal application refers to the use of nanorobots in the field of fractal engineering. These nanorobots are designed and programmed to manipulate and assemble fractal structures at a microscopic level, allowing for precise control and customization of fractal patterns.

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What is the purpose of nanorobotics for fractal application?

The purpose of nanorobotics for fractal application is to explore and apply the principles of fractal engineering at a microscopic scale. This field aims to develop nanorobotics technologies that can manipulate and create complex fractal patterns, which can have various applications ranging from materials science to biomedical engineering. The ultimate goal is to harness the unique properties of fractal structures for practical purposes and advancements in various industries.

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