Microelectronic properties of organic Schottky diodes based on MgPc for solar cell applications
Abstract
The magnesium phthalocyanine (MgPc) based Schottky diodes are fabricated using four inorganic semiconductors (n-GaAs, n-Si, p-InP, p-Si)by the spin-coating process at 2000 rpm for 1 min. Their microelectronic and photoelectrical parameters are investigated from the current-voltage I -V characteristics measurements at room temperature in dark and under light. The In I -V plots, Cheung and Norde methods are used to extract the MgPc based Schottky diodes parameters in dark, including ideality factor (n), barrier height (mb), series resistance (Rs) and the obtained values are compared. The MgPc/n-Si showed excellent n of 1.1 which is very closer to ideal Schottky diode behavior, high Ob of 0.98 eV and low series resistance of 237.77 Omega in contrast MgPc/p-Si showed non -ideal Schottky diode behavior with n of 2.42 and high series resistance of 1.92 x 10(3) Omega. The MgPcip-InP exhibited photovoltaic behavior with excellent Jsc of 3.11 x 10(3) mA/cm(2) and a photosensitivity of 30.46. The I -V forward bias in log scale have been investigated to survey the dominated conduction mechanism. This study reviews thecrucial effect of (p and n) type conductivity substrates on the electrical parameters of organic MgPc Schottky diodes for the use in such organic photovoltaic applications. (C)2016 Elsevier B.V. All rights reserved.