DND Nanostructure An Example of Active Cable Duplication in Nanoelectronics (Based on (Nano-Microelectronics PhD)
Researcher and author: Engineer Afshin Rashid
Note: DND is an example of active wires. The structure of DNA is well known and it is created automatically.
The DND nanostructure is an example of a replication of active wires for its production, such as polymers. It is only a matter of studying its properties to understand how it is altered.
An example is given for this purpose :
In order to use DND to calculate the current in terms of voltage, an 8 nm gap is assumed between the two platinum electrodes, so a current can be calculated by applying a voltage. The point to be drawn from the reaction is that the flowchart is asymmetric in terms of graphical voltage , meaning that the current is not allowed to pass for a voltage of, for example, between 1 and 2 volts, while it can pass for 2 and 1 currents, which means That DND can do the rectification.
There are three theories about conduction through DNA, one is that DND is a semiconductor with a very large band gap. Secondly, DND is a semiconductor with a small band gap and DND is a metallic property. The point is that DND is a very complex material whose environmental conditions can greatly affect its properties. One of these environmental conditions is the effective presence of water, DNDs in dry environments and DNDs in wet environments. Very different. Therefore, given the local conditions governing DND, one cannot conclude that DND is a metal or a semi-metal, but what is certain is that the DND is a semiconductor with a large band gap. Normally there are ions that can manipulate DND conductivity Changing it means one can hope to even convert it to metal by adding ions. Another interesting thing is that you can use DND as a template and place the metal series in certain places on the DND rather than a metal wire around the DND. To be created. In this case, DND is used as a template to hold the wire in place.
It is also possible to check the DND stability according to the local conditions of the system. DND routing takes two distinct paths. When considered a DND as a current conductor, it can once cross the stream in a parallel direction and once it can cross a stream perpendicular to the stream, so it can be assumed that to direct in a perpendicular direction when the tip The STM molecule of carbon nanotubes is positioned above the DND. The flow is perpendicular to the pair of pairs present at the tip of the STM. This can be used both as a test for viewing the DND image and for measuring the pair flow through the pair and can thus be used. Calculates the conductivity of AT and CG (base pairs in the DND helix). DND can be a useful tool in the production of nanoelectronic products, since DND is naturally present in nature and in the cells of living things, it can be useful in the production of other nanotechnology products such as nanomotors. DND stability control is also possible given its intrinsic and local properties and is subject to debate and debate.
Conclusions DND nanostructure is an example of active wires replication
1 What is certain, molecular electronics has a bright future, and with songs very fast growing and evolving. Therefore, it requires special attention.
2. The practical implications of the growth of nanotechnology, such as nanoelectronics, will create equipment that is vastly different from the past and a whole new generation of unique capabilities.