MOLED: Simulation of multilayer organic light emitting diodes

Published: 1 December 2003| Version 1 | DOI: 10.17632/cdv7kc536r.1
H Houili, E Tutiš, H Lütjens, M.N Bussac, L Zuppiroli


Abstract MOLED solves the dynamics of electrons and holes in multilayer Organic Light Emitting Diodes (OLED). The carriers are injected on the positive and negative electrodes of the device by tunneling through a potential barrier. Thermal excitation processes across the barrier are also included. In the interior of the device the electron–hole recombination occurs when the two carriers are close enough, according to a model inspired from the one of Langevin. A fraction of these recombined pairs gives... Title of program: MOLED Catalogue Id: ADSG_v1_0 Nature of problem Injection of electrons and holes into an organic electroluminescent material occurs through tunneling from metal electrodes. The transport of carriers inside the molecular medium proceeds by hopping from one molecule to another. The emission of light is a result of their radiative Langevin recombination. Versions of this program held in the CPC repository in Mendeley Data ADSG_v1_0; MOLED; 10.1016/S0010-4655(03)00435-1 This program has been imported from the CPC Program Library held at Queen's University Belfast (1969-2019)



Surface Science, Condensed Matter Physics, Computational Physics