Continuing work has also allowed the advancement of techniques for the processing or modification of materials, molecules, and particles sizes ranging from 1 to 2 in the field of nanotechnology. Nanotechnology has already allowed research into technologies for product manufacture and its components required to develop, process, and manipulate atoms, molecules, and particles with sizes varying from 1 … 100 nm Nanotechnological science. [1] 100 nm.
which are typically inefficient, b are also not relevant on the nanoscale, normal, macroscopic become much more significant – the properties and interactions of individual atoms and molecules or aggregates of molecules, quantum effects.
The use of advanced scientific results in nanotechnology allows us to attribute it to high technology. However, until now, new areas, especially in molecular technology, have been little studied.
The development of modern electronics is on the path to reducing the size and lowering their energy intensity. In this case, the classical methods of production approach their natural economic and technological barrier, when the size of the device decreases only slightly, and economic costs increase exponentially. Therefore, nanotechnology is the next logical step in the development of electronics and other high-tech industries.
The next logical step in the advancement of electronics and other high-tech technologies is thus nanotechnology. In the computing industry, nanotechnology now plays a crucial role-after all, the measurements of transistors are calculated in nanometers.
The industry hit the limit of 45 nanometers by 2007, 32 nanometers in 2009, and 22 nanometers in 2011. Maybe 16 nanometers would be the last phase toward miniaturization since it is quite challenging for basic physical reasons to shape a transistor in a thinner semiconductor layer (with current field-effective technology). Nanowires, nanometer, is one of the promising areas of nanoelectronics.
Graphene film can also be considered as another essential material. The University of Manchester received a limited volume of material, called graphene, a carbon monolayer in October 2004. Graphene can be used as a single molecule’s arrival and departure detector (NO 2) Graphene has high atmospheric mobility, and it can be a good substrate that can replace silicone in built-in circuits. New nanomaterials, including quantum processors that operate with 2-quantum bits (qubits), will shape the basis of future generations of processors.
In 2007, Intel announced that a new prototype processor will be built that includes the smallest structural element with dimensions of around 45 nm. The Organization plans not to exceed 5 nm in the future to meet a structural element scale. Intel’s major rival, AMD, has long used nanotechnology to produce its processors, jointly built with IBM. The use of an additional isolating layer[3] is a characteristic differentiation from Intel’s growth.
The creation of resistors, which know the power of the current flowing through them[4], is of undoubted importance. A pipe with a pipe diameter that depends on liquid pressure and flow path can be equivalent to a memristor. Although the fluid does not flow, the pipe remembers its previous state (see figure). A file can be used as a “file” for artificial intelligence systems – neural networks are structured, nanodevice connections are generated, and broken *.
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