The InSe$\langle\beta$-CD$\langle$FeSO$_4\rangle\rangle$ clathrate with hierarchical architecture reveals a giant magnetoresistive effect and extraordinary (oscillating) behavior of the current-voltage characteristics in the magnetic field in the direction perpendicular to nanolayers. A new technological approach for the synthesis of multilayered nanostructure is proposed. It allows attaining a fourfold degree of expansion of the initial InSe semiconductor matrix in which the cavitate of $\beta$-cyclodextrin ($\beta$-CD) and iron sulfate served as a guest content. This makes it possible to develop a theoretical model to describe the interlayer magnetoconductivity in such extremely anisotropic 2D layered compounds. Graphic dependencies of oscillating magnetoconductivity are analysed for different values of quantizing magnetic field in a layered structure whose interlayer transfer integral can be controlled artificially.
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