The Nanoscale

If you have heard any of the buzz surrounding new, seemingly ubiquitous engineering and medical breakthroughs promised by nanotechnology, there are some immediate questions that probably come to mind. For instance, what constitutes something being Nano? And what impact does that have on technology? To fully understand nanotechnology, on needs to recognize the importance of the scale in which the technology operates. Nanotechnology works by either using engineering or chemical and biological processes that take place at the nanoscale, or at the size of one billionth of a meter. Impacting matter and compounds at such a small level has unique effects on the makeup of the compounds themselves. By operating on such micro levels, nanotechnology is able to get at the root of the causes of medical diseases and conditions, or cause structural changes to different building materials. To find out more about what is nanotechnology check out a website that specializes in different types of clinical nanotechnology.

The nanoscale refers to the range of size and the specific scale of the material used in the construction of nanotechnology. It can also be at which the either the chemical or physical reactions of the compounds used or affected take place. A nanometer is one billionth of a meter, while the nanometer scale accounts for objects that exist in dimensions between 1 and 100 nanometers. The extreme degree of its size is what gives nanotechnology its revolutionary capabilities. Scientific research has shown that materials and compounds can be affected by particle changes at the nanometer-level. By using technology that creates chemical reactions at the Nano-level, scientists are able to manipulate the surface, or overall structure of an object or compounds. This has opened up doors to the possibilities of what can be in medicine, biology, and engineering.

The overall effects of a reaction at the Nano-level can systematically change or manipulate the properties of an object. Scientists call this a quantum effect; as multiple and mass changes are made to an object on a molecular scale as small as the nanometer, the changes are compounded to express a new or latent property of the material. This has produced two different methods for using nanotechnologies: using known materials shrunk to the size of the nanoscale for their unique reactions at that level, and attempting to manipulate compounds at the level of the nanoscale through other nanoparticles. To find out more about the nanoscale impact factor, and what it could mean for the future of medical technology check out a company that specializes in nanotechnology.

Technological inventions and discoveries at the nanoscale are changing the way we think about medicine. To find out more about a nanotechnology definition, visit the website for a nanotechnology specialty company.