Small chlorophyll-like organic nanomolecules in (nanosupercapacitors)

Note: In the structure  (nano supercapacitors),  the electrical conductivity is from a conductor to a semiconductor or an electrically changeable insulator of nanotubes 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 cloud) capacitors)  are

Small chlorophyll-  like organic nanomolecules in (nanosupercapacitors)  are 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 molecules Chlorophyll-like micro-organisms  instead of charge storage capacitors  (nano-supercapacitors)  absorb nano-type.  Nano crystals, the use of which will increase the lifespan of nano memories.

In nano-supercapacitors, pyroelectricity  is a phenomenon that produces electricity when heat is applied to a material. This phenomenon is different from the thermoelectric phenomenon in ( nano-supercapacitors). The temperature change changes the atomic position in the structure. The crystal changes slightly, in a way that the polar state of the dielectric material ( nano supercapacitors)  changes. This polarity change increases the voltage in( nano supercapacitors)  .

In nano supercapacitors, pyroelectricity provides one of the best performance principles for detecting temperature changes. This occurs in the polar material and leads to the appearance of surface charges proportional to the temperature change in nanosupercapacitors . The main structure of a  nano supercapacitor is a planar one,on whichof pyroelectricity  In nano-supercapacitors, the following electricity from a permanent electric dipole moment of the unit cell of the crystalline structure or, in macroscopic terms, from an intrinsic ("spontaneous") electric polarization. This polarization  in nano-supercapacitors  changes with heating and cooling, resulting in electric charges on the surfaces.  Nano capacitors  are created in a special way.

In a  nanosupercapacitor , spontaneous polarization  can exist only along a polar direction that has no equivalent symmetric direction. ( In nano supercapacitors,  the condition for the occurrence  of the effect  of electromagnetism  or  the effect of electric pressure) is expressed uniquely.

In fact, by using nano technology, the energy storage capacity can be increased by a thousand times or more.   Energy storage is a very important and necessary topic that can be done in different ways through small chlorophyll-like organic nanomolecules in (nano-