Content area
Full Text
ABSTRACT:
Nanotechnology marks a drastically different approach in manufacturing. Instead of sealing materials down to create something, nanotechnology produces things by building then up piece by piece on a molecular level by providing broad scope. Now, In medical field we deal in detail about nanotechnologies potential in developing artificial red blood cells design of artificial RBC and their efficiency compared to normal RBC working of the developed artificial RBC their use in the medical field. The application is to provide metabolic support in the event of impaired circulation. Controlled release of oxygen from the diamonded sphere could be done using the selective transport method proposed by .It shows transport in the wrong direction but simply, the ability to heal disease that are caused due to the deficiency of oxygen and make the body stronger: all these and more are possible given the potential of nanotechnology. Machines could be produced, down to the size of viruses, which would work at incredible speeds. Through the use of nanotechnology, the number of possible worlds we can create is limited only by what we can imagine.
KEYWORDS: Artificial RBC, Nano technology, Controlled release of oxygen, diamonded pressure tank, nanobots.
1. INTRODUCTION TO NANOTECHNOLOGY:
1.1. What is Nanotechnology?
Nanotechnology is defined as the fabrication of devices with precision to the scale of 1 to 100 nanometers (nm). This scale yields precision on the atomic or molecular scale. Because of this, nanotechnology is also referred to as molecular manufacturing. Nanotechnology is a result of the intersection of diverse fields such as physics, biology, engineering, chemistry, and computer science to name a few.
Nanotechnology marks a drastically different approach in manufacturing. Instead of scaling materials down to create something, nanotechnology produces things by building them up piece by piece on a molecular level by providing broad scope.
Nanotechnology has the potential for a nearly limitless number of applications in a wide range of fields. One such field is computer science, in which nanotechnology presents a new challenge.
Computer chips are shrinking by a factor of four every three years (Moore's law). Another field in which nanotechnology has a wide reach of potential effects is medicine. Molecular manipulation would aid in killing off cancer cells. Telecommunications is another field in which...