- Oligophenylene vanillin nano wires section
Oligophenylene vanillin nanowires are uniform nanowires (Nano Wire)
Researcher and author: Dr. ( Afshin Rashid)
Note: In order to check the electromagnetic properties of Oligophenylene vanillin nanowires, it is necessary to produce uniform nanowires with a specific diameter and length.
Electron nanoparticles in Oligophenylene vanillin nanowires and nanotubes separated from electromagnetically active molecules and smooth and uniform nanowires with a high specific length (length to diameter ratio) are clearly defined; which consists of nanowires with a smooth and completely uniform surface with more electromagnetic properties than the usual " oligophenylene vanillin " nanowires . In the immersion method of " Oligophenylene vanillin" nanowires, enough time is needed to transfer from the particles of the nanowires to the holes. have; The step of forming uniform nanoparticles is done slowly and finally uniform nanowires are formed. Structural investigation with FESEM in the immersion method of uniform nanowires in all pores and in a wide area in the particles of Oligophenylene vanillin nanowires . By changing the Sr/Fe ratio, there is no change in the morphology of the nanowires. and spectrometry of Oligophenylene vanillin nanowires with different Sr/Fe ratios inside the internal nanoparticles (uniform nanowires), the presence of Fe and Sr elements is caused by strontium ferrite in the spectroscopy of uniform nanowires, it is observed in the ratio sample Nano Sr/Fe particles to Its stoichiometric value is closer in the electromagnetic composition of nanoparticles, while due to the lower solubility of strontium nanowire nanomolecules compared to iron nitrate and the presence of less strontium ions in the reaction with the electromagnetic particles of nanowires , there is more amount of Fe ion in the final structure.
To separate uniform nanowires, molar electromagnetic active particles are used at ambient temperature . Oligophenylene vanillin is necessary in nanoscale electronic devices or some other applications in the application of "oligophenylene vanillin" nanowires . Oligophenylene vanillin nanowires are separated from alumina particles . It is also necessary to separate the uniform nanowires for better nano-electrostatic studies. In the use of uniform ferrite nanowires as microwave absorbers to separate Oligophenylene vanillin nanowires . There is no need for inactive electromagnetic nanoparticles because the presence of dielectric material plays an effective role in wave absorption.
Conclusion :
Electron nanoparticles in Oligophenylene vanillin nanowires and nanotubes separated from electromagnetically active molecules and smooth and uniform nanowires with a high specific length (length to diameter ratio) are clearly defined; which consists of nanowires with a smooth and completely uniform surface with more electromagnetic properties than the usual " oligophenylene vanillin " nanowires .