Effect of lithium doping in electron injection layer on the LED performance in reverse structure
Subject Areas :Mohammad Zirak 1 , Hasan Alehdaghi 2
1 - Department of physics, Hakim Sabzevari University, Sabzevar, 9617976487, Iran
2 - Department of physics, Hakim Sabzevari University, Sabzevar, 9617976487, Iran
Keywords: Thin Film, Lithium doping, Lighting, OLED, Injection electron,
Abstract :
Light emitting diodes (OLEDs) are one the newest lighting in industrial lighting which can be a promising candidate in this area. A typical reverse OLED is made from cathode, injection/transport electron and hole layers, emissive layer (EM). Electrons and holes after injection to EM are recombined in emissive layer which is an organic material. In reverse structure, holes inject EM well while electrons cannot be easily injected to emissive layer. Here, effect of lithium doped zinc oxide (LZO) on the led performance was investigated. The results showed that lithium can be increased conductivity of injection electron layer and facile to inject electron to emissive layer.