Abstract
Efficiency and brightness and carriers injection have been obviously improved by using bathocuproine (BCP) as a buffer-layer in organic light-emitting diodes. Compared with the bufferless device, the quantum efficiency of device ITO/NPB (10 nm)/Alq 3 (10 nm)/BCP (2.4 nm)/Al has increased four times at the same current density (32 mA/cm 2). Moreover, the buffer layer has changed the current-voltage properties and the turn-on voltage has obviously decreased. Considering BCP and Al 3+ can react conveniently under room temperature, we suggest that a complex cathode structure of BCP/[(Al) x (BCP) y ] 3 x+ /Al has formed under electric field and the new cation [(Al) x (BCP) y ] 3 x+ at the BCP/Al interface has improved the internal electric field and then enhanced the electrons injection. we conclude that: for a very thin (<1 nm) BCP buffer layer, improving electron injection will principally responsible to the improvement of the performance of the OLEDs; for a thicker BCP layer, there will be a synthetic function of BCP: improving electron injection, hole-blocking and electron-transporting.
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