Propagation of Nanowire Nano-Wire Particles (Based on Nano-Micro-Electronic PHD) Educational-Research PhD
Researcher and author PhD student: Afshin Rashid
Note: Nano-wires are high-dimensional, high-dimensional, large-area analog-like nanostructures, in which the uniformity of radial strain allows for the non-usable composition of semiconductor materials. It enables countless applications of nanowires in electronics, optics, and quantum technology in general.
In the multiplication of nanoparticles, the nanoparticles are synthesized by calculating the nanoparticles embedded in the alumina pattern in the air. The morphology and steps of nanowires / nanotubes are examined by electron microscopy (TEM) and X-ray diffraction (XRD), respectively. The electronic reaction of nanoparticles between oxidations plays a role in the formation of such nanostructures.
In the immersion method, the nano-wires have enough time to transfer from the nanoparticles to the cavities ; The step of forming uniform nanoparticles is done slowly and finally uniform nanowires are formed. Structural studies with FESEM have been performed in the method of immersion of single-stranded nano-wires in all porosity and in a large area in nanoparticle particles. Changing the Sr / Fe ratio does not change the morphology of the nanowires. And spectroscopy of nanowires with a ratio of Sr / Fe states within the nano-particles inside (nanowires uniform) elements Fe and Sr of ferrite strontium in spectroscopy nanowires uniform is seen in the sample of nanoparticles Sr / Fe to value Its stoichiometry is close to that of electro-magnetic nanoparticles, while Due to the lower solubility of nanocomposite nanocrystals of uniform strontium relative to iron nitrate, followed by lower presence of strontium ions in the reaction, with electromagnetic particles of nanofibers, there is a greater amount of Fe ion in the structural structure.
Conclusion:
Nano-wires are high-dimensional, high-dimensional, large-area analog-like nanostructures in which the radial strain uniformity allows for non-conductive compositions of semiconductor materials. It enables countless applications of nanowires in electronics, optics, and quantum technology in general.
Author: PhD Student ( Afshin Rashid)
PhD student in Nano-Microelectronics at Islamic Azad University, Science and Research Branch, Tehran