Modification of properties of GaSe⟨β-cyclodexterin⟨FeSO4⟩⟩ Clathrat by synthesis in superposed electric and light-wave fields

A new technological approach to the synthesis of multi-layer nanostructures is suggested; it enables us to ensure them unique properties and extraordinary possibilities of their practical application. In particular, it is shown that the synthesis of nanostructures of GaSe⟨β-cyclodextrin⟨FeSO4⟩⟩ hier...

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Bibliographic Details
Published in:Journal of applied physics 2017-05, Vol.121 (18)
Main Authors: Grygorchak, I. I., Ivashchyshyn, F. O., Tokarchuk, M. V., Pokladok, N. T., Viznovych, O. V.
Format: Article
Language:English
Subjects:
Applied physics
Batteries
Cyclodextrins
Impedance
Iron sulfates
Multilayers
Nanostructure
Structural hierarchy
Synthesis
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Summary:A new technological approach to the synthesis of multi-layer nanostructures is suggested; it enables us to ensure them unique properties and extraordinary possibilities of their practical application. In particular, it is shown that the synthesis of nanostructures of GaSe⟨β-cyclodextrin⟨FeSO4⟩⟩ hierarchy architecture in superposed electric and light-wave fields causes especially strong changes in their magnetic impedance response. In this case, the impedance response of the synthesized clathrate takes inductive character in the frequency range of 10−3–105 Hz. The relationship between the impedance behaviour of such hierarchical structures and frequency fractionality is investigated on the basis of Cettano equations. The prospect of application of the synthesized nanohybrids for active elements of gyrator-free nanolines of delay, for super-sensitive capacitance sensors of magnetic field and of light-wave field, and for quantum batteries at room temperature is shown.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.4983097