Nano   fullerene C90  yields better equipment (nano-electronics) with (Nano _ PhD in microelectronics)

Researcher  and author: Dr.   (   Afshin Rashid)



Note: The structural, electronic properties of fullerenes in single-walled carbon nanotubes (SWCNTs) are  based on various computational methods of fullerene C90 used to understand the different properties of carbon nanostructures .

There is an importance of using computational methods in exploring different sizes of fullerene C90 and their isomers. There is also a relationship between local curvature and reactivity of flawless carbon nanotubes and marked single wall  survival of hydrogen and fluorine elements on the outer surface of SWCNTs using  carbon and fullerene C90 and graphene nanostructures. 





Semiconductor carbon nanotubes with larger diameters are more efficient in electronic equipment. Selective dispersion  of SWCNTs using aromatics Dense benzoids such as pentacene, anthracene, and quaterylene are propagated. Large chiral nanotubes can be separated using dense benzoid aromatics, while small chiral nanotubes are separated with polypropylene derivatives. In addition, by controlling the dispersion-separation process, metal nanotubes and then semiconductor nanotubes can be separated. Optical isomers separated nanotubes using diporphyrin aromatic molecules. Chiral diporphyrin isomers act as molecular tweezers. Separate selective right or left SWCNTs. Chiral selectivity is optimized by controlling the bidirectional angle between the porphyrins. Interestingly, diporphyrin molecules can be right-handed or left-handed Prior to this, electron scattering detects SWCNTs and SWCNTs by correcting the carbon lattice error in space. Or they can partially separate the SWCNT and SWCNT enantiomers. This allows aromatic nanomolecules to separate chiral nanotubes with higher reliability.





Conclusion : 

The structural, electronic properties of fullerenes in single-walled carbon nanotubes (SWCNTs) are  based on various computational methods of fullerene C90 used to understand the various properties of carbon nanostructures .

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics