مطالب تخصصی و فوق تخصصی (برق _الکترونیک) و (دکترای نانو _ میکرو الکترونیک)

توضیحی کامل درباره مباحث تخصصی و فوق تخصصی برق_الکترونیک و دکترای نانو _ میکرو الکترونیک

۳۱۷۴ مطلب با کلمه‌ی کلیدی «نانو الکترونیک» ثبت شده است

Aromatic Molecules in Electronic Properties of SWCNTs (Based on Nano-Micro PhD) ()

Aromatic Molecules in Electronic Properties of SWCNTs (Based on Nano-Micro PhD) (PhD)

Researcher  and author: PhD student : Afshin Rashid


Note: It is clear that carbon nanotubes have  strong interactions with aromatic molecules such as  graphite surface. SWCNTs can be considered as  extended π-electron systems  that can interact with other π- electron systems  through π-π  interactions. 

Such π-π interactions act as the primary driving force for the adsorption of DNA and aromatic polymers onto the nanotube surface. It is interesting and important to discover how the selective interactions between π conjugates and SWCNTs  occur. Certain aromatic monomers and polymers can selectively dissolve semiconductor or metal SWCNTs. The π-π bonding between the aromatic molecule and the surface of the SWCNTs occurs in a selective direction, which may be one of the reasons for the selective performance of these aromatic molecules. The selective noncovalent functionalization of semiconductor SWCNTs  was characterized by porphyrin chemistry. Some  aromatic molecules can form a charge transfer complex  with metal SWCNTs.


Porphyrin chemistry has shown that some aromatic molecules can form a charge transfer complex with metal SWCNTs. Nano  derivatives Fluorene polymer   can be chosen to arrange  nanotubes  (7,5)  and (8,6)  and (10,5)  to  enrich  themselves. T he polymer structure  and solvent structure are both highly effective  and in some cases lead to very high selectivity  in terms of chiral diameter and angle  The acellular (Diles-Alder) condensation molecules are  used to disperse  high-diameter nanotubes The selectivity of low-diameter nanotubes (<2.1 nm) is  concentrated, while the choice of larger diameter nanotubes is  concentrated.(nm 6.1 ~). Nanotubes of  carbon semiconductor larger diameter (6mn) is the type of nanotubes  yields better equipment,  electronic. Large chiral nanotubes can be  separated using dense benzoyd aromatics  while small chiral  nanotubes are separated by poly (polypropylene) derivatives. In addition,  by controlling the dispersion-separation process,  metal nanoparticles and then semiconductor nanotubes can be  separated. Chiral diporphyrin isomers act as  molecular tweezers to  selectively isolate right-handed or left-handed SWCNTs  Chiral selectivity  with two-way angle control between porphyrins Optimized. It is interesting that diporphyrin molecules  can deform or deform before they can detect  electron scattering by correcting the error of the carbon network in space. This makes the index   more reliable separation of chiral nanotubes  do



Conclusion : 

The advantage of using aromatic molecules  is their structural diversity and their similarity to  nanotubes. Molecules can be designed and  synthesized to make the precision of further separation operations non -  discriminatory  Generally,  two important points in relation aromatic molecules and bond  covalent there nanotubes SWCNTs  of different absorbed  by the molecules to be performed and another  distribution SWCNTS intensified the attraction  is. Therefore, in these non-quantitative methods, the  separation efficiency is always affected by the solvents  .

Author: Engineer Afshin Rashid 

PhD student of Nano-Microelectronics at Islamic Azad University, Science and Research Branch, Tehran