Proliferation of MOSFET nanotube transistors (MOSFET)

Note: in electronic sciences the construction and reproduction of MOSFET nanotransistors  is the basis for making electronic nanochips for computing devices is

The use of MOSFET nanotransistors was due to the growth in reducing the size of the chip, which has now reached approximately 0.1 micron, but due to the emergence of quantum effects, there have been limitations in further reducing their size. Nanoelectronics deals with new methods for making transistors on a small scale The dimensions of which are several tens of nanometers, which is derived from the science called nanotechnology They say.Unlike today's MOSFETs, which behave based on the movement of a mass of electrons in matter, the new devices follow the phenomena of quantum mechanics at the nano scale, in which the discrete nature of the electron can be ignored. It is not.

We divide these devices into three parts:

1) Carbon nanotube transistors

2) single electron devices

3) Molecular electronic devices

Using a nanowire as a metal-oxide-semiconductor field-effect transistor (MOSFET) can enable a structure around a gate to perform an excellent electrostatic gate control over the channel to reduce short-channel effects. . which has been in the structure of nano circuits and the basis of making electronic nano chips for computing devices.

Effective integration of nanowires is also used in modern complementary metal-oxide-semiconductor (CMOS) technology, specifically in MOSFET devices, and non-volatile memory applications. By extending the nanowire MOSFET structure to a nanocircuit architecture, various new semiconductor materials can be investigated. It has been proven that nanowire MOSFETs (MOSFET nanotransistor) semiconductors are a strong and useful platform for investigating the physical and electrical properties of new materials. Limitations such as heat dissipation, leakage current, and channel length modulation have become a major concern that inevitably slows CMOS scaling as it approaches the atomic dimension. Therefore, there is an urgent need to develop new semiconductor technology to solve issues including cost, speed, density, reliability and energy dissipation. Many attempts have been made

Conclusions on the proliferation of MOSFET nanotube transistors (MOSFET)

Scaling of the metal-oxide nano-metal-oxide field-effect transistor (MOSFET) continues with the emergence of new nanoelectronics technologies to expand the complementary metal-oxide semiconductor (CMOS) to open the ever-smaller technology node.