_ Department 🔬 laboratory (propagation and expansion of nanochips)
RFID and RTLS nanochips
Researcher and author: Dr. ( Afshin Rashid)
Note: RFID and RTLS implantable nanochips can also be used to control people's locators, such as hidden personal trackers, due to their very small size. In short, it is used to monitor and track humans and animals and any moving thing. However, due to the dimensions of the implantable nanochips placed in the human body that transmit frequencies, the best use of this type of GPS is for people and pets.
This nanochip tracker provides its best application for tracking and locating. It is also the best example of available trackers for forensic applications for criminals. Although the working frequency of RFID chips is very perfect; It is strong and regular. And it is the most unique in its kind in the world. But the biggest drawback of these chips is that the frequency concentration of RFID nanochips can be disturbed and taken out of the circuit with a very complicated process. (This nanochip is very perfect.) In court cases, knowing the location of some criminals is vital, and RFID is the best available GPS for such a task. It is perfect for using RTLS and RFID trackers as police trackers. RFID nanochips for personal location tracking are produced in different types and even some of them are designed in dimensions that can be injected under the skin. RTLS locator and RFID nanochips have very suitable dimensions and weight, which provides the ability to be used and installed in a regular backpack or handbag.
With RFID and RTLS nanochips in this system, the location of individuals, specific people, etc., can be determined and tracked through an operational center, and the system manager can monitor their geographic location at any time. In describing the structure of RFID and RTLS implantable nanochips and its ingredients, most of the chips and microchips are silicon. By applying the appropriate voltage (threshold voltage) to the silicone solution, the repulsive force overcomes the surface tension of the silicone and a jet is formed. By evaporating the solvent from the jet, the liquid phase changes to solid and the raw materials of nanochips are formed.
Conclusion :
RFID and RTLS implantable nanochips can also be used to control people's locators, such as hidden personal trackers, due to their very small size. In short, it is used to monitor and track humans and animals and any moving thing. However, due to the dimensions of the implantable nanochips placed in the human body that transmit frequencies, the best use of this type of GPS is for people and pets.
Researcher and author: Dr. ( Afshin Rashid)
Specialized doctorate in nano-microelectronics