Abstract
In order to enhance the capacitance of the Al/p-Si metal-semiconductor structure, the Alq3 thin film was coated between these two layers using the spin coating technique as the interlayer. The electrical conductivity, real and imaginary parts of electric modulus, dielectric loss and dielectric constant parameters were examined at the room temperature by the help of admittance measurements in the 100 kHz to 1 MHz frequency range. The effect of frequency on the dielectric constant and dielectric loss values is negligible at the negative voltage values, up to about 0.8 V, and these values rapidly ascended after 0.8 V. The function of electrical modulus complex has been examined from the point of permittivity and impedance in order to clutch the contribution of the particle border on the relaxation mechanism of the materials. It is established that the examined dielectric parameters strongly correlated with the voltage and frequency. As a result, the changes in the dielectric parameters and electrical modulus due to the varying frequency were described as the results of relaxation process, polarization and surface conditions. Furthermore, it could be stated that the Alq3 material used in the interfacial layer is a useful material which could be used in addition to the conventional materials.
Highlights
Semiconductor-based devices are being used in many different electronic applications with new developments [1,2,3,4]
In order to improve the electrical performances of diode-based devices, materials having high dielectric properties such as HfO 2, Al 2 O 3, TiO 2 or organic/inorganic materials have been utilized in place of traditional SiO 2, which is known as low dielectric material [10,11,12,13,14,15]
We examined the varying voltage and frequency effect on the electrical conductivity, complex electric modulus, and dielectric properties of Al/Alq 3 /p-Si device in the current study
Summary
Semiconductor-based devices are being used in many different electronic applications with new developments [1,2,3,4]. In order to improve the electrical performances of diode-based devices, materials having high dielectric properties such as HfO 2 , Al 2 O 3 , TiO 2 or organic/inorganic materials have been utilized in place of traditional SiO 2 , which is known as low dielectric material [10,11,12,13,14,15]. Besides the electrical properties of the devices, the dielectric properties is of great importance in order to reveal the detailed features of the device and to present the application areas more clearly In this regard, we examined the varying voltage and frequency effect on the electrical conductivity, complex electric modulus, and dielectric properties of Al/Alq 3 /p-Si device in the current study
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