Nanotechnology is the process of building objects at molecular scale. The final aim is to make Universal Assembler in which atoms produce the products. Until Scanning Tunneling Microscope and the Atomic Force Microscope inventions, Nanotechnology was just a dream but today it is possible to see and move the atoms. The technology is used in clothing, cosmetics, and medicine. With its impact in computer field, science strongly believes surge in capacity of storage.
With this revolutionary technology, employing ramifications is considered. Feynman explained the process of manipulating developed molecules and atoms with a tools set to create and function smaller set at required scale. The issue of scaling comes from the altering the magnitude of many phenomena of physics. This idea is feasible which increases parallelism to give the end products.
Tokyo Science University Professor Norio Taniguchi defined nanotechnology composes of processing, consolidation, separation, and deformation of products by an atom or a molecule. The future Nanotechnology and Nano-systems era are Molecular Machinery, Manufacturing, and Computation.
Nanotechnology and nano-science started with two great developments. They are the birth of cluster science and the invention of the scanning tunneling microscope (STM) which discovered fullerenes, carbon nano-tubes, and properties of semiconductor nano-crystals which increased the number of metal oxide nano-particles of quantum dots.
Conclusion:
It is concluded that Nanotechnology Services Embedded with Ubiquitous Computing for Smart Classrooms Seminar Paper has greatly enhanced the ratio of surface area to volume at nano-scale with future possibilities like catalysis. The physical phenomena are noticed with decrease in the system size including effects of statistical mechanical and quantum mechanical.
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