Quasi-Periodic Noise Oscillations in Oxyhydrates of Rare-Earth Elements

  • Y. I. Sucharev Chelyabinsk State University 129 Bratiev Kashirinyh St., Chelyabinsk 454001 Russia
  • B. A. Markov South Ural State University 76 Lenin St., Chelyabinsk 454080 Russia
  • T. I. Prolubnikova Chelyabinsk State University 129 Bratiev Kashirinyh St., Chelyabinsk 454001 Russia
  • I. I. Lebedeva Chelyabinsk State University 129 Bratiev Kashirinyh St., Chelyabinsk 454001 Russia

Abstract

The present paper dwells upon the chemical foundations of formation of a gel nanostructure (by the example of zirconium oxyhydrate) at the time of formation of oxyhydrate polymer chain and develops electrophoretic (diffusional) conceptions related to the phenomenon of self-organization of nonequilibrium oxyhydrate gel. Adduced are the experimental data (measurements of spontaneous current induced by the alterations in capacity of the polarized double electrical layer of the gel) that permit to claim that the mathematical model of the phenomenon is not in contradiction with the experiment. On the ground of the experimental data and calculations it is concluded that the constant magnetic field alters the character of geometrical configuration of chemical interaction of the oxyhydrate gel fragments with each other, which affects the value of nano-current measured in the course of the experiment.

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Published
2012-02-15
How to Cite
[1]
Y. Sucharev, B. Markov, T. Prolubnikova, and I. Lebedeva, “Quasi-Periodic Noise Oscillations in Oxyhydrates of Rare-Earth Elements”, Eurasian Chem.-Technol. J., vol. 14, no. 1, pp. 61-72, Feb. 2012.
Section
Articles