Difference between revisions of "THE POTENTIAL OF NANOTECHNOLOGY"
Jump to navigation
Jump to search
m |
m |
||
Line 1: | Line 1: | ||
==Description== | ==Description== | ||
[[Image:Neno.jpg|thumb|Picture of a Neno technology]] | |||
Smaller is not smallest. The nanotechnology has the advantage of making the components smaller, durable and tougher. It means that this nanotechnology has a possibility of making a water proof, dust proof, antiseptic, moisture proof and shock proof laptop for the children in order to longer the life time of the every single laptop. | Smaller is not smallest. The nanotechnology has the advantage of making the components smaller, durable and tougher. It means that this nanotechnology has a possibility of making a water proof, dust proof, antiseptic, moisture proof and shock proof laptop for the children in order to longer the life time of the every single laptop. | ||
Revision as of 12:42, 8 March 2007
Description
Smaller is not smallest. The nanotechnology has the advantage of making the components smaller, durable and tougher. It means that this nanotechnology has a possibility of making a water proof, dust proof, antiseptic, moisture proof and shock proof laptop for the children in order to longer the life time of the every single laptop.
For more information: http://en.wikipedia.org/wiki/Nanotechnology
Enabler
- Research and Development: Physicists.
- Things getting smaller and smaller.
- Moore law.
- Power Electronics Circuit.
- Demand if Longer life time.
- Mechanical Engineer and designer.
Inhibitor
- Nanotechnology is not yet mature.
- High cost investment.
- Changing the behavior of the original materials.
- Energy problem.
- Heating Problem.
Paradigm
- The laptop becomes more dust proof, antiseptic, moisture proof and shock proof. It means that the usage of the environment conditions become broader.
- The differences of the laptop and micro-computer become more difficult to define.
Expert
TU-Delft-
Professor Herre Van der Zant
Molecular Electronics and Devices
Phone: (+31)(0)15 2787733
Telefax: (+31)(0)15 2781413
Timing
- 1980: Two major developmentsof birth of cluster science and the invention of the scanning tunneling microscope (STM).
- 1986: The discovery of fullerenes and carbon nanotubes a few years later. In another development, the synthesis and properties of semiconductor nanocrystals were studied. This led to a fast increasing number of semiconductor nanoparticles of quantum dots.