A nanomachine, also called a nanite, is a mechanical or
electromechanical device whose dimensions are measured in nanometers
(millionths of a millimeter, or units of 10 -9 meter).
Nanomachines are largely in the research-and-development phase, but
some primitive devices have been tested. An example is a sensor having a
switch approximately 1.5 nanometers across, capable of counting
specific molecules in a chemical sample. The first useful applications
of nanomachines will likely be in medical technology, where they could
be used to identify pathogens and toxins from samples of body fluid.
Another potential application is the detection of toxic chemicals, and
the measurement of their concentrations, in the environment.
The microscopic size of nanomachines translates into high operational
speed. This is a result of the natural tendency of all machines and
systems to work faster as their size decreases. Nanomachines could be
programmed to replicate themselves, or to work synergistically to build
larger machines or to construct nanochips. Specialized nanomachines
called nanorobots might be designed not only to diagnose, but to treat,
disease conditions, perhaps by seeking out invading bacteria and viruses
and destroying them.
Another advantage of nanomachines is that the individual units
require only a tiny amount of energy to operate. Durability is another
potential asset; nanites might last for centuries before breaking down.
The main challenge lies in the methods of manufacture. It has been
suggested that some nanomachines might be grown in a manner similar to
the way plants evolve from seeds.
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