Title :
Finite difference modeling of bipolar OLED
Author :
Rostami, A. ; Ahmadi, P. Naghinazhad ; Janabi-Sharifi, F.
Author_Institution :
Fac. of Electr. Eng., Univ. of Tabriz, Tabriz, Iran
Abstract :
Simulation of Organic Light Emitting Diodes (OLEDs) can be helpful for improving the performance and optimization of the device. In this study Finite Difference (FD) method was employed for the discretization of the governing equations, i.e., continuity, drift-diffusion and Poisson´s equations. Hole and electron mobilities were considered to be electric field dependent of Poole-Frenkel form and electron-hole recombination of a Langevin type. The results of this paper give a detailed knowledge about the operation mechanism of OLEDs, charge, field and exciton formation distributions. Also the effects of various parameters changes in OLED response were analyzed.
Keywords :
Poisson equation; Poole-Frenkel effect; electron mobility; electron-hole recombination; excitons; finite difference methods; hole mobility; organic light emitting diodes; Poisson equations; Poole-Frenkel form; bipolar OLED; drift-diffusion; electron mobilities; electron-hole recombination; exciton formation; finite difference modeling; hole mobilities; organic light emitting diodes; Charge carrier density; Charge carrier processes; Current density; Equations; Mathematical model; Organic light emitting diodes; Spontaneous emission; OLED; finite difference; recombination rate; temperature dependent;
Conference_Titel :
Optomechatronic Technologies (ISOT), 2010 International Symposium on
Conference_Location :
Toronto, ON
Print_ISBN :
978-1-4244-7684-8
DOI :
10.1109/ISOT.2010.5687373
