Graphene Nano Memory Moulcolar  A floating gate transistor memory nano (PhD in Nano _ Microelectronics)

Researcher  and author: Dr.   (   Afshin Rashid)



Note: Nano Memory Moulcolar Graphene Nano Memory Moulcolar is  a floating gate transistor nano memory device, a transparent flexible nano graphene made by combining an active single-layer graphene channel with trap elements of gold nanoparticles. Systematically the dimensions of the gold nanoparticle trap elements, the thickness of the dielectric tunneling layer and the graphene doping surface are very important in its production. 

Graphene has special electrical properties that make it a promising candidate for future nanoelectronics. While graphene, a single-dimensional carbon layer, is a conductive material, it can be  converted to a semiconductor in the form  of graphene molecular nanoparticles . This means that it has enough energy or a band gap in which there is no electron mode - it can be turned on and off, and therefore may become a major component of  graphene molecular nanoparticles  . In particular, conductivity differences (  e.g.  , memory gate) between programming operations and clearing at a specific gate voltage can be maximized by doping. Graphene Nano Memories The result is molecularly developed, excellent programmable nanoscale memory performance compared to previous graphene memory devices and a large memory window (12 volts), fast switching speed (1 microsecond), strong electrical reliability it shows. Graphene molecular nanoparticles display  unique electronic properties, and their small size, structural strength, and high performance make them very promising as a charge storage medium for nanoparticle applications. With the development of small and large devices, graphene nanostructures are emerging as an ideal material.





Numerous chemical and physical methods have been proposed for the production of various types of multilayer nano-graphene. The basis  of the physical methods is that in these methods, they try to eliminate the forces between the graphene plates in  graphite and by separating them, they reach the graphene or graphene oxide monolayers, which is the same top- down method.  Is. In chemical methods, multilayer nano-graphene is made by placing individual carbon atoms together,  which is also called the bottom-up method. Although graphene is a semiconductor material with zero gap and unsuitable for logic circuits, but using nanoelectronics technology, different forms of this material are created to produce  molecular graphene nanoparticles  that have different gaps (eV 2.1-0). .



Conclusion : 

Nano Memory Moulcolar Nano Memory Moulcolar is  a floating gate transistor nano memory device, a transparent flexible nano-graphene made by combining an active single-layer graphene channel with trap elements of gold nanoparticles. Systematically the dimensions of the gold nanoparticle trap elements, the thickness of the dielectric tunneling layer and the graphene doping surface are very important in its production. 

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics