Abstract
Highly efficient tandem red OLED is proposed using planar organic heterojunction based charge generation layer (CGL) of C70 (Fullerene)/CoPc (Cobalt Phthalocyanine). The proposed charge generation layer generates charges and exhibits organic photovoltaic type (OPV) behavior in the red emitter zone which helps in slower efficiency roll-off at higher current densities. In addition an ultrathin layer of Al/LiF is used as electron injection layer (EIL) so as to enhance the injection of electrons from charge generation layer to emissive unit. It is found that the tandem red device can reach current efficiency and luminance of 26 cd/A and 26039 cd/m2 at 20 mA/cm2 and 100 mA/cm2, respectively, which is 1.663 times and 1.665 times higher than the corresponding single emitter device. Moreover, it is known that the tandem device requires double turn-on voltage than conventional devices. In this work, the turn-on voltage of red tandem device (5.85 V) is found to be less than twice the voltage of conventional device (3 V). Further with the introduction of Distributed Bragg Reflector (DBR), enhancement in current efficiency and brightness of tandem red device are observed due to high reflectance property of DBR. Thus, the effective charge generation and OPV function of proposed charge generation layer as well as remarkably high injection property of EIL layer lead to the high performance tandem OLED.
Highlights
Developed in 1987 and based on the electroluminescent phenomenon, organic light emitting diodes have turned out to be a blessing for both display and lightning applications because of their ability to produce more vibrant colors and amazing features like low operating voltage, wide viewing angle, low power consumption, flexibility, thin, light weight, high resolution, and many more
Tandem OLED is an advancement of basic OLED structure that comprises of two or more electroluminescent units that are placed one over the other and are separated by the interconnecting or charge generation (CGL) layer
They have the potential to achieve higher efficiency and luminance at minuscule current density with the increase in the number of electroluminescent units. They have longer lifespan in contrast to the conventional OLEDs as they have the tendency to reduce efficiency roll-off caused by the higher current density
Summary
Developed in 1987 and based on the electroluminescent phenomenon, organic light emitting diodes have turned out to be a blessing for both display and lightning applications because of their ability to produce more vibrant colors and amazing features like low operating voltage, wide viewing angle, low power consumption, flexibility, thin, light weight, high resolution, and many more. Tandem OLED is an advancement of basic OLED structure that comprises of two or more electroluminescent units that are placed one over the other and are separated by the interconnecting or charge generation (CGL) layer. They have the potential to achieve higher efficiency and luminance at minuscule current density with the increase in the number of electroluminescent units. They have longer lifespan in contrast to the conventional OLEDs as they have the tendency to reduce efficiency roll-off caused by the higher current density
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