Electrical conduction mechanism and dielectric relaxation of bulk disodium phthalocyanine

AC conductivity and dielectric characteristics of disodium phthalocyanine (Na2Pc) in a pellet form were investigated in a frequency range from 45 Hz to 3.12 MHz and a temperature range from 303 to 423 K. The charge carrier transport mechanism was determined according to the correlated barrier hopping model (CBH). Also, the electrical parameters were estimated in light of this model. The thermal activation energy of AC conductivity decreases with increasing frequency. The behavior dependence of dielectric loss and dielectric constant on temperature and frequency was discussed. The behavior of dielectric loss was explained based on the Giuntini model. The maximum value of barrier height, (WM), was obtained to equal 0.38 eV. The results showed that the type of relaxation mechanism is a non-Debye one. The activation energy is calculated for dielectric relaxation to be 0.36 eV.

Automated summary

The AC conductivity and dielectric characteristics of disodium phthalocyanine in a pellet form were studied in this research. The charge carrier transport mechanism was found to follow the correlated barrier hopping model, and the electrical parameters were estimated accordingly. The relationship between dielectric loss, dielectric constant, temperature, and frequency was discussed, and the behavior of dielectric loss was explained using the Giuntini model.