Biological nanobots (nanobots) A controlled robotic system at the nanoscale and molecular scale (based on PhD in nano-microelectronics)
Researcher and author: Dr. ( Afshin Rashid)
Note: A biological nanobot (nanobots)means that cell repairnanomachines can be designed on a molecular scale with special tools and receptors to reach the target cell using blood flow and identify problems.
Nanobots have the potential to protect the system meticulously by assembling and cloning. In fact, they are put into a process with an atomic or molecular structure to complete a cycle. But we made this micro-robot because of the complexities of the human body so that it can move between the arteries and veins of the body and study and identify diseases. Nano-robot is a controlled robotic system at the nanoscale and molecular scale. This micro-robot has features such as the ability to be used in small spaces with high flexibility, high functionality and adaptability to different conditions. The source of energy production required by the nano-robot, including Liquid kinetic energy such as blood, electromagnetic radiation, temperature changes caused by increasing and decreasing light and creating suitable vibrations that can now be used in various biological environments. The important thing about medical nanobots is that they provide the driving force, which is mainly blood flow, and therefore should be done in compliance with patient safety tips. The information transmission system and control of the movement of nanobots in the body should also be such that it can be easily examined from outside the body. The reason for the importance of nobots is their speed and performance in the face of viruses and pathogenic symptoms of nano-robots that can Detect the presence of a specific infection or virus in the body. In making this nanobot, which has a body of 20 nanometers in diameter and is made of gold, short and long strands of DNA have been used. In this design, the long strands of DNA are selected so that they can bind to pathogens, and the short strands of DNA, with their luster, indicate the presence of infection or virus.
The next goal of this project is to modify the nanobot using microRNA so that it can be used to identify diseases such as cancer and heart disease. Making a versatile nano-robot that can be used to diagnose and treat cancer. In the construction of this nanobot, anti-tumor nanoparticles called 3 with dimensions of 20 to 30 nm have been used, which are present as pigment nanoprofyrin in red blood cells. Organic nanoparticles due to biocompatibility, chemical modification and drug carrying capacity The best carriers of the drug are minerals in the treatment of tumors. By attaching these nanoparticles to a nanobot, the nanoparticles enter the tumor tissue and send a signal that is effective in detecting the tumor. Nano-robots with biosensitive sensors will be medical equipment Gradually evolves. In fact, they are a model of molecular machines that control and improve the connections and connections between biological cells with special methods , in other words, they monitor the function of cells and take proper control of them. The method of operation of these molecular models is based on simulation in a three-dimensional environment .
Conclusion:
A biological nanobot (nanobots)means that cell repairnanomachines can be designed on a molecular scale with special tools and receptors to reach the target cell using blood flow and identify problems.
Author: Dr. ( Afshin Rashid)