Department of  Nano  Electronic Memory Laboratory

Experiment (nanoelectronic memory) using small  chlorophyll-like organic molecules instead of charge storage capacitors 

Researcher  and author: Dr.   (   Afshin Rashid)

Note: In electrical conduction from a conductor to a semiconductor or an insulator, nanotubes can be electrically changed depending on their structure and molecular chiral angle  Since carbon nanotubes are able to  pass electric current through their surface by means of ballistic transfer of electrons without friction - this current is a hundred times higher than the current that passes through copper wire - so nanotubes are an ideal choice for making  nano chips . memory clouds are  memory clouds   .

Making nano memory cloud chips Nano memory cloud is made of carbon   nanotubes  , although the discovery of small but very resistant, flexible and conductive  carbon nanotubes  with dimensions equal to DNA strands and the use of tiny organic molecules  Chlorophyll instead of charge storage capacitors in nano-type memory chips.  Nano crystals, the use of which will increase the lifespan of nano memories. 



In fact, by using nano technology, the storage capacity of information can be increased by a thousand times or more.  The storage of subject information is very important and necessary, which can be done in different ways through  nano cloud  memories .  One of the new information storage tools is the use of nickel quantum dots in nanometer sizes, which are expected to be used to store terabytes of data. According to  the cloud  of nano memories,   there is a high potential for activity in this field. The structure and structure of supercapacitors based on nanoelectronics store 100 times more charge than electrolyte types in the same volume and charge and discharge at a much faster rate than batteries. 



Of course, these capacitors still store up to 10 times less charge than some types of batteries in the same volume. According to these characteristics, supercapacitors are used in cases where frequent charging and discharging are required, high charging speed is required, or sudden discharge of the charge is required. (Until now, their main use in the electronics industry has been as a backup for SRAM memories.) Nanoelectronics shows a schematic of a supercapacitor. The main idea to achieve high capacitance is to reduce the distance between positive and negative charges in the capacitor. The design of these capacitors is such that the thickness of the dielectric layer in them does not exceed one or more molecules. 


Conclusion :

 In electrical conduction from a conductor to a semiconductor or an insulator, nanotubes can be electrically changed depending on their structure and molecular chiral angle  Since carbon nanotubes are able to  pass electric current through their surface by means of ballistic transfer of electrons without friction - this current is a hundred times higher than the current that passes through copper wire - so nanotubes are an ideal choice for making  nano chips . memory clouds are  memory clouds   .


Researcher  and author: Dr.   (   Afshin Rashid)

Specialized doctorate in nano-microelectronics