Structural study with FESEM  in the immersion method of single-stranded nano-wires in all faults (PhD in nano-microelectronics)

Researcher  and author: Dr.   (   Afshin Rashid)



Note: Structural study with FESEM  in the immersion method of single-stranded nanowires in all disturbances and in a wide area of ​​nanowire particles are formed. Changing the Sr / Fe ratio does not change the morphology of the nanowires. 

Spectroscopy 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 closer to that of nanoparticles in electromagnetic composition,  while  due to the lower solubility of uniform strontium nanowire nanomolecules compared to  iron nitrate and the consequent presence of less strontium ions in  reaction with electromagnetic nanoparticles.  There is more Fe ion in the final structure. For uniform separation of nanowires from electromagnetically active molar particles  at ambient temperature Is used. In the application of nanowires in nanoscale electronics  or some other applications, it is necessary to separate the nanowires from alumina particles  It is also necessary to separate the uniform nano-wires   for better nano-electrostatic studies. In the application  of uniform ferrite nanowires as microwave absorbers, there is no need to separate  the nanowires from the inactive electromagnetic nanoparticles because the presence of an electrode material  in the absorption of the ripple wave.



In particle amplification, nanowires are synthesized by calculating nanoparticles embedded in the alumina pattern in air. The morphology and stages of nanowires / nanotubes are examined by transmission electron microscopy (TEM) and X-ray diffraction (XRD), respectively.  Electron reaction of nanowire particles between oxidation is involved in the formation of such Nanowire nanostructures. Nanowires are  quasi-one-dimensional materials, "their two dimensions are at the nanometer scale." This one-dimensional grants distinctive electrical and optical properties. For one thing, this means that the electrons and photons in these nanowires experience "encapsulated quantum effects." However, unlike other materials that produce such quantum effects as quantum dots, the length of nanowires allows them to communicate with other macroscopic devices and the outside world.



Conclusion :

Structural study with FESEM  in the immersion method of single-stranded nanowires in all disturbances and in a large area in nanoparticle particles. Changing the Sr / Fe ratio does not change the morphology of the nanowires.

 Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics