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Future of Nano Scale Robotics
Nanotechnology has made it possible to create devices, and other technologies at the scale level of molecules and atoms. A nanometer is close to the diameter of human hair, and it can therefore be used in many applications. A nano scale robot is designed at a molecular scale. The nano scale robot is capable of sensing, signaling, and processing information at a nano scale. Stakeholders in different sectors have emerged, and they are looking for ways through which they can use nano scale robots. This is especially the case in the field of medicine, where surgeons are looking for different ways to incorporate nano robotics in medical procedures such as surgery. Developing this technology will improve healthcare, and it will give hope to many people. This is because nano robotics will be able to access areas that are currently unreachable. Nano robots are flexible, and over time, they have become more functional and robust.
Scientists have developed nano scale robots, which are small enough to penetrate the DNA. The robots are made from DNA, using advanced technology, and they are able to penetrate large surface areas of a human’s DNA. This is a tremendous achievement, and once it has been developed fully, it will be able to repair damaged tissues.
The future of nano robotics is to make them small enough to penetrate any surface. This might seem impossible, but it can be done. When nanotechnology was being developed, scientists could only imagine creating a nano robot that was small like the diameter of the human hair. They have surpassed their imagination, as they have been able to create a nano robot that is significantly smaller than the diameter of human hair. The DNA robots are a breakthrough in medicine. They are preferred in surgery because of their small incisions, quick recovery time, motion scaling, tremor filtering, and 3D visualization (Gundeti 328). This leaves little room for error, and better chances of recovery. Nano robots are currently being used in minimal invasive surgeries, but the advances in nanotechnology could soon change this. Nano robotics cannot only be used in surgical procedures, but they can also be used in the prevention of diseases. They can be used in the treatment of conditions such as diabetes, brain aneurysms, cancer, and artery problems among others.
Nanotechnology is still considered a new technology as new nano materials emerge. Nanotechnology will change the future, as it will change the way things are manufactured. It will become cheaper as it becomes more common. The materials are being used as lubricants and coatings. They are being incorporated with other materials such as plastics. In future, people may no longer have to worry about pollution, brought about by using plastic. Robotics in future may help save lives in different ways, as the army considers incorporating the concept. The army has started to design a nano robotic system that will be able to adapt to the terrain, and find alternative routes. A robotic vehicle will assist the army in trailing the people and army vehicles, and ensuring that they are okay. In this way, the nano robotic will act as an intelligence system, as it will assist in providing much-needed knowledge and information to the troops in the field. The vehicle will carry the supplies needed by the army, such as missiles and other kinds of fire systems and weapons (Hearn). Nanoscale robotics is also being incorporated with computer science to develop claytronics. The claytronic atoms create 3D objects when they interact with each other, making the systems more interactive with the user.
Works Cited:
Gundeti, S. Mohan. Pediatric Robotic and Reconstructive Urology: A Comprehensive Guide. Hoboken, NJ: John Wiley & Sons, 2012. Print
Hearn, Kelly. Army Exploring Nanotechnology and Robotics. Web. 26 March 2012
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