Exploring The Link Between Nanoelectronics and Bioelectronic Nanorobots

Note: Using  the knowledge of nanoelectronic technology,  nanorobots can be designed that are placed in the human body and play the role of protector and healer. These intelligent micromachines are able to make multiple copies of themselves and replace worn or damaged tissues. This process is   called self-replication .

Nanorobots have the potential to meticulously and accurately protect the system by gathering and placing them in colonies. In fact, they are placed in a process with an atomic or molecular structure to complete a cycle. However, due to the complexities of the human body, the construction of this microrobot so that it can move through the veins and arteries of the body and examine and identify diseases,   (Nano-Bio-Electronic Robot) is a controlled robotic system at the nano and molecular scale. This microrobot has features such as the ability to be used in small spaces with high flexibility, high adaptability and adaptability in different conditions. The energy generation source required by the nanorobot includes the  kinetic energy of a fluid (such as blood), electromagnetic radiation, temperature changes caused by the increase and decrease of light, and the creation of appropriate vibrations, which can currently be used in various biological environments. An important point in medical nanorobots  is that they are powered by blood flow, which is mainly done by the patient's safety. The  information transmission and movement control system of nanorobots in the body must also be such that it can be easily examined from outside the body. This means that cell-repairing nanomachines can be designed with special tools and receptors at the molecular scale to reach the target cell using blood flow and identify existing problems.

Nanorobot is a controlled robotic system at the nano and molecular scale. This microrobot has features such as the ability to be used in small spaces with high flexibility, high adaptability and adaptability in different conditions. The source of energy generation required by the nanorobot  Nucleic acid nanobots   includes  the kinetic energy of a fluid (such as blood), electromagnetic radiation, temperature changes caused by the increase and decrease of light, and the creation of appropriate vibrations, which can currently be used in various biological environments. Nanobots (electronic-medical micro-nanobots) are small machines on the scale (nanoparticles) that are designed to perform specific and sometimes repetitive operations with very high precision.

Conclusion :

Using  nanotechnology knowledge,  nanorobots can be designed to be placed in the human body and play a protective and healing role. These intelligent micromachines are able to make multiple copies of themselves and replace worn or damaged tissues. This process is   called self-replication .