The biintercalation of the layered GaSe semiconductor is carried out by ferroelectric and ferromagnetic guest components. Due to the separation of guest components, the GaSe <NaNO2+FeCl3> nanohybrid has a spatial-scale hybridity, which is due to the alternation of nanoscale regions of one phase with meso- or microdimensions of another. The results of electrical conductivity studies by impedance spectroscopy indicate a 250-fold increase after biintercalation of the GaSe single crystal, due to delocalized current carriers. Confirmation of a significant change in the impurity energy spectrum after biintercalation was obtained by the method of thermally stimulated discharge—GaSe nanohybrid <NaNO2+FeCl3> is characterized by a quasi-continuous spectrum in the entire temperature range of measurements and relaxation of the heterocharge. The GaSe <NaNO2+FeCl3> nano-hybrid is characterized by a high dielectric constant while a tangent of the dielectric loss angle is less than 1 in the high- frequency region of the spectrum. That opens the prospect of its use for the manufacture of high-quality radio- frequency capacitors. Changes in the impurity energy spectrum are investigated for low temperatures in the virtual crystal model, taking into account the Fivazov dispersion law both for the conductivity band and for the two impurity bands. The appearance of an additional gap in the spectrum of impurity states is established and its shift is investigated depending on the concentration of intercalants of different nature—intercalant-acceptor type and donor.
The paper presents findings on the characteristics of GaSe fourfold-expanded matrix with propolis and sodium nitrite (NaNO2), intercalated in between matrix layers. The nature of changes of impedance frequency behavior, electric loss tangent, and dielectric permittivity under normal conditions, when illumination is applied, and in a constant magnetic field of synthesized intercalate GaSe < NaNO2 > and bi-intercalate GaSe < NaNO2 + Propolis > has been identified. The extraordinary effects have been obtained, indicating that clathrate GaSe < NaNO2 > has immense values of photo- and magneto-capacitive effects while a current–voltage (I–V) characteristic of clathrate GaSe < NaNO2 + Propolis > exhibits the hysteresis behavior typical of memristor structures. The memory effect related to pseudo-capacitive charge accumulation has been found and shown to be due to oxidation–reduction reactions.
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