- Oligophenylene vanillin  nano  wires section

  "Oligophenylene vanillin"  nanowires,  quasi -dielectric structures (important article, please pay attention)

Researcher  and author: Dr.   (   Afshin Rashid)



Note:   Oligophenylene vanillinnanowires   are quasi-dielectronic structures with a high aspect ratio and large area, where radial strain uniformity enables unusable combinations of semiconductor materials.  It enables countless applications of nanowires in electronics, optics and quantum technologies in general.

Oligophenylene vanillin  nanowire  particles  are    synthesized by calculating nanowire particles embedded in alumina pattern in air. The morphology and phases of nanowires/nanotubes are investigated by transmission electron microscope (TEM) and X-ray diffraction (XRD), respectively.  Electron reaction of nanowire particles between oxidation plays a role in the formation of such Nanowire nanostructures.



In the immersion method,   Oligophenylene  vanillin nanowires  have  enough time to transfer from the particles of the nanowires to the holes  ; The step of forming uniform nanoparticles is done slowly and finally uniform nanowires are formed. Structural investigation by the propagation of Oligophenylene vanillin nanowire particles   in  the immersion  method of uniform nanowires in all pores and in a wide area in the nanowire particles. By changing the Sr/Fe ratio,   there is no change in the morphology of  Oligophenylene  vanillin nanowires . and spectrometry of nanowires with  different Sr/Fe ratios inside the internal nanoparticles (uniform nanowires)   The presence of Fe and Sr elements is caused by  strontium  ferrite . It can be seen in the spectroscopy of uniform nanowires that the ratio of Sr/Fe nano particles in the sample is  closer to its stoichiometric value in the electromagnetic composition of nanoparticles,  while  due to the lower solubility of nano Uniform strontium nanowire molecules compared to  iron nitrate, followed by the presence of less strontium ions in  the reaction with the electromagnetic particles of nanowires,  there is a higher amount of Fe ions in the final structure.



Conclusion : 

 Oligophenylene vanillin  nanowires  are  quasi-dielectronic structures with high aspect ratio and large area, where radial strain uniformity allows for unusable combinations of semiconductor materials.  It enables countless applications of nanowires in electronics, optics and quantum technologies in general.

Researcher  and author: Dr.   (   Afshin Rashid)

Specialized doctorate in nano-microelectronics