Why Nanotechnology?

Introduction
Find an area to nanotechnology may lead to new fields of technology and discovery. Examination of the whole subject of nanotechnology can certainly lead us on the original expectations. You can view nanotechnology as a whole and compare the results in many areas of research in this area that several people are involved with different backgrounds, different institutions and different organizations, and the resultsoperate on commercial shops and businesses already in that area. Many of the results were unexpected and therefore a large number of questions with multiple possible answers would be increased in an area many still regard only a part of scientific research and not as part of the actual technical and commercial side.
Consequently, the general view to nanotechnology in relation confirmed here as an outcome of what has been done and achieved so far has been from around the worldgenuine belief that nanotechnology is the right way for a better future for all concerned.
The importance of nanotechnology
Consider the question: "Why nanotechnology should be better than any other form of technology?" The answer is very simple. If we can understand the structure of matter, then we can control and manipulate "from within", which should give much better results than just dealing with the matter "from theoutside ".
As the conclusion is that nanotechnology is the answer to use when we still do not have either the opportunity to work in a commercial environment, or to have fast, accurate and cost-effective ways to apply is that? Perhaps this is partly a question of faith. But nowadays, a lot of work and research around the world aimed at just that, ie to build the foundation of what will be needed (now or later) to fast, accurate and cheaper ways of employing the principles theNanotechnology.
The study of the fundamentals of nanotechnology, has its future effects and its benefits, it is desirable, a case for us, mainly undergraduate and postgraduate programs placed in this area as an important role in accelerating the adoption of this type of technology under the broad public and especially to make a nanotechnologists educated elite for various industries and companies.
There's is very well known in everyTechnology is no work, no complete proof of the practical applications and the enormous benefits that can be provided. Thus, research, development and construction of various tools for nanotechnology are crucial to keep a steady economic progress can take place alongside the current state of scientific research.
Teaching Nano Science and Nanotechnology
Obviously, for nanotechnology and to establish a major completeestablish specialist taught like any other science and technology, which is now taught to a regular program should be initiated to increase awareness, and curricula.
Nanotechnology doctrine is far behind nanotechnology research. This is due to a number of reasons, but perhaps the most important "is among many" that nanotechnology provides all the important trade and defense. Large commercial companies do not want to be left behind and thereforewere among the first to start their own research in this area. Also nanotechnology research in security and defense policy plays an important role in the countries, the infrastructure and the money to have the technology for their own purposes in advance.
Applications
In the old days was "philosophy," described as the mother of all science. "Nanotechnology" and can be conveniently described the mother of technology. For these reasons, when it comes to natureand the number of applications that can be addressed by nanotechnology, then the answer is that there is no limit, just because nanotechnology deals with the internal structure, ie how to deal with atoms and molecules as a starting point for all kinds of applications that use can be our daily lives.
Practical training and future tools
The future of nanotechnology tools, and recent research on the scientific development has brought the next stage Generation of methods and tools that allow us to understand, and the nano-world in a much better way than we are able to do at this time. With these new methods and tools, we are able to gain a better insight into the collective behavior of molecules and atoms. For example, a combination of ordinary and Low Energy Electron Microscopy (LEEM) that allow us to look deeper into aspects of the self-assembly is on a superficial level. Another design in the context of> Nanotech tools is the "Interfacial Force Microscope (IFM), the ability to measure simultaneously and lateral forces, which is normal, regardless of whether it is to load a repulsive or attractive.
Other important areas of nanotechnology research and development related tools (such as robotic arms and Nanotube tweezers), which as its principal purpose the movement of molecules from one place to another. The size of these instruments must be reduced and the computerTechnologies should be developed to become an essential part of the above methods and applications.
There is no doubt that nanotechnology will be common technology of the "not-too-distant 'future, but only for those who are willing to invest their time, effort and money. This can be done in the form of the doctrine of nanotechnology, its application in different industries and companies and people familiar with it, especially the young generation.
The U.S. hasa lot done in this area, they even have nanotechnology as a topic for a number of schools. The hope that the rest of the world do the same, and can do more, will undoubtedly take advantage of the much earlier work in that area and hopefully to share with the rest of the world.
Najib Altawell
Altawell © 2008