DND nanostructures with electronic transmission measurements up to nano scale (PhD in nano-microelectronics)

DND nanostructures with electronic transmission measurements up to nano scale (PhD in nano-microelectronics)

Researcher  and author: Dr.   (   Afshin Rashid)

Note: DND nanostructures are characterized by electronic transmission measurements up to the nanoscale. The data show that DNDs with different levels are collected in different ways. 

This leads to composites with different optoelectronic properties. The interference of solid materials leads to a dramatic increase in photovoltaics and bandwidth in electronic nanodevices. The combination of both groups of DND nanostructures seems to be the most desirable for optoelectronic effects.

There are three theories about conducting through DNA, one is that  DND is a semiconductor with a very large gap. Another is that DND is a semiconductor with a small gap and also that DND has a metallic property. The point is that DND is a very complex substance whose environmental conditions  can greatly affect its properties. One of these environmental conditions is the presence of water, DNDs that are in a dry environment with DNDs that are in a humid environment. It is very  different. Therefore, according to the local conditions governing DND, it is not possible to give a definite conclusion about  whether DND is metal or semi-metal, but what is certain is that DND is a semiconductor with a large gap. Normally there are ions that can be manipulated to determine the conductive properties of DND Changed means that it can be hoped that by adding ions it can even be converted to metal. Another interesting point is that DND can be used as a template and in certain places  on the DND to put a series of metals to a metal wire around the DND To be created. In this case, DND should be used as a template to hold the desired wire.It is also possible to check the stability of DND according to the local conditions of the system. DND is routed in two specific directions. When the DND is considered as a current conductor, it can pass the current once in the direction parallel to its axis and once it can pass the current perpendicular to its axis. STM The molecule of carbon nanotubes is placed on top of the DND. The current enters the STM tip vertically from the existing base pairs. This can be used both as an experiment to see the DND image and to measure the current flow through the base pairs. Calculated the conduction of AT and CG (base pairs present in the DND helix). DND can be used as a tool in the production of nanoelectronic products, since DND is naturally present in nature and in the cells of living organisms, it can be used in the production of other nanotechnology products such as nanomotors. DND control and stability is also possible due to its inherent and local properties and is worth considering. 

Conclusion :

DND nanostructures are characterized by electronic transmission measurements up to the nanoscale. The data show that DNDs with different levels are collected in different ways. 

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics