What is the difference between nanotechnology and nanoscience?
The prefix nano-comes from the Greek nanos , which means a dwarf. One nanometer is one billion meter. The concepts of nanotechnology and nanoscience are closely connected and sometimes confused. In particular, nanoscience refers to the study of objects that are very small and in the range of ten to hundreds of nanometers. Nanotechnology, on the other hand, is a real manipulation, application and use of objects and nanometer objects to create various phenomena or for specific technologies and applications. The mere eye does not see the items of nanoparticles, so specialized technology is used to study these small objects. For most people it is very difficult to understand how small the nanometer is. For information, a standard notebook sheet has a thickness of approximately 100,000 nanometers, which is 0.0039 inches (0.009906 cm).
When something is reduced to nanoparticles, its color often changes, as well as the specific properties that it usually has in a larger size. Nanoscience studies these changes in the building and its new properties. Nanotechnology andNanoscience is an interdisciplinary field that combines physics, chemistry and biology.
universities, societies and government often study nanotechnology and nanoscience, as it is assumed that applications that may result from a nanoparticles study could change every aspect of life. The possibilities are considered endless and there are many nanked programs around the world. Many universities now offer postgraduate titles in Nanova.
Thepeople unknowingly use nanotechnology and nanoscience for hundreds of years. For example, creating steel swords can be said to be an example of applied nanotechnology. Steel is a mixture of metals that turn at the atomic level by melting.
It is assumed that by examining nanoscience, nanotechnology can be applied to find findings to make materials that are stronger, more resistant and lighter. These new materials can produce less waste and use less energy. On the surfaces thatThe fact that the materials are scratched and corrosion resistant can be applied.
Advances in nanotechnology and nanoscience could cause more effective ways of delivering drugs with fewer side effects, methods to clean air and procedures that could repair damaged body tissues. Food storage benefits from discoveries in nanoscience. For example, nanometer deposits of clay in plastic containers create an impermeable barrier that Gasses cannot cross, thus keeping food better. Also, silver particles for nanoparticles are also often mixed into plastic because they have been found to inhibit the development of bacteria in storage containers.