Effects Of Emission Layer Doping On The Spatial Distribution Of Charge And Host Recombination Rate Density In Organic Light Emitting Devices: A Numerical Study

Based on drift-diffusion theory, a numerical model of the doping of a single energy level trap in the emission layer of an organic light emitting device (OLED) was developed, and the effects of doping of this single energy level trap on the distribution of the charge density, the recombination rate density, and the electric field in single-and double-layer OLEDs were studied numerically. The results show that by doping the n-type (p-type) emission layer with single energy electron (hole) traps, the distribution of the recombination rate density can be tuned and shifted, which is useful for improvement of the device performance by reduced electrode quenching or for realization of desirable special functions, e. g., emission spectrum tuning in multiple dye-doped white OLEDs. (C) 2013 AIP Publishing LLC.