The influence of the magnetic field on the current-voltage characteristics of cupc nanostructures

Abstract

The paper presents the results of a study of the role of spin states in the process of charge carrier transfer in copper phthalocyanine (CuPc) nanostructures. It is shown that the film obtained by thermal evaporation has the structure of the α-phase, the CuPc nanowires are in the η-phase. The effect of an external magnetic field on the current-voltage characteristics (IVC) of CuPc nanostructures was studied. It is shown that a decrease in the value of the short-circuit current when an external magnetic field is applied, which is associated with the mechanism of spin polarization in the formation of a bipolaron. It is shown that the effect of “spin blocking” in nanowires is stronger.

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Zavgorodniy A.V. The influence of the magnetic field on the current-voltage characteristics of cupc nanostructures/A.V. Zavgorodniy[et all.]//Eurasian Physical Technical Journal.-2019.-Vol.16, No.1(31).-pp.54-61

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